In Review: Bosch's BNS200-18 Brad Nailer

Bosch has been a leader in the power tool industry for over a century and despite having only recently launched their pneumatic line-up, Bosch pneumatics, including their BNS200-18 18-gauge brad nailer, are making a big impact on the community. With a sleek design, concentrated power, and an always intense performance, this brad nailer, while only weighing 2.1 lbs, is a surprisingly heavy-duty nailing tool.

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To get into a little bit more detail, Bosch's BNS200-18 18-Gauge Brad Nailer, despite coming in a very small, lightweight package, is one pneumatic tool that packs a very big punch. Boasting the power of Bosch's Full Force Technology which delivers 100% of the tool's energy into each and every shot, the gun is intensely accurate and secures fasteners with a superior kind of permanence. As aforementioned, this efficient power is accompanied by a sleek and streamlined design perfectly manufactured to provide a clear line of sight and a comfortable, controllable working experience.

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The nailer shoots 5/8" - 2" smooth shank nails at 60 - 120 psi rendering the thing both strong and versatile, and with a tool-less quick-clear mechanism to help users remove any nail jams in a hurry, the BNS200-18 will keep you shooting smoothly to keep you keeping-up to ensure the time you spend with your brad nailer is spent as efficiently as possible.

Bosch's BNS200-18 additionally boasts a tool-less adjustable depth of drive for fast and simple fine-tuning, and with a tool-less selectable trigger that allows users to move fluidly between bump firing and sequential firing actions, the nailer is well-equip to accommodate different working styles, working preferences, and on-the-job necessities. Also featuring a dry fire lock-out mechanism to ensure the gun will not blank fire (which would, of course, damage the tool and potentially your working materials as well), and with a brilliant in-line, self-cleaning air filter, the tool protects itself from the inside out assuring dust or debris is locked out of the tool's interior protecting its moving parts.

In Review: Bosch's BNS200-18 Brad Nailer
Porter Cable Power Tools

Special Price!!! Porter-Cable 59370 Door Hinge Template

Oct 31, 2011 03:53:44

Porter-Cable 59370 Door Hinge Template
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Porter-Cable 59370 Door Hinge Template

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Porter-Cable 59370 Door Hinge Template Feature

  • Quick and easy set up with lock-in pins to ensure security
  • Complete with double headed nails for easy removal
  • Included along with the template are a high-speed mortiser router bit with bearing brads, instructions
  • 8 hinge sizes from 2-1/2 inch to 6 inch and 5 door sizes from 1-3/8 inch to 2-1/2 inch
  • Made from Fiberglass, reinforced plastic with extended platform for better router stability


Porter-Cable 59370 Door Hinge Template Overview

Use this affordable, time saving template kit to hang one or more doors with any 1/4 inch collet router. Easy to set up; just mark the hinge location, tack the template in place with the included brads, and make the perfect, factory quality looking cut. The 59370 Door Hinge Template includes 8 hinge sizes from 2-1/2 inch to 6 inch and five door sizes from 1-3/8 inch to 2-1/2 inch.



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Bare-Tool Porter-Cable PC18AG 18-Volt Cordless Expansion Angle Grinder (Tool Only, No Battery)

Special Price!!! Bare-Tool Porter-Cable PC18AG 18-Volt Cordless Expansion Angle Grinder (Tool Only, No Battery)

Oct 29, 2011 23:19:58

Bare-Tool Porter-Cable PC18AG 18-Volt Cordless Expansion Angle Grinder (Tool Only, No Battery)
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Bare-Tool Porter-Cable PC18AG 18-Volt Cordless Expansion Angle Grinder (Tool Only, No Battery)

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Bare-Tool Porter-Cable PC18AG 18-Volt Cordless Expansion Angle Grinder (Tool Only, No Battery) Feature

  • High-Torque 18-volt Motor Produces 8,500 rpm for Cutting and Grinding Applications
  • Cast metal gear housing increases jobsite durability and tool longevity
  • Ergonomic soft grip handle with trigger guard provides control and protection
  • 3-position adjustable side handle allows greater control in multiple positions
  • Spindle lock feature allows for single wrench bit changes


Bare-Tool Porter-Cable PC18AG 18-Volt Cordless Expansion Angle Grinder (Tool Only, No Battery) Overview

Includes Tradesman 18V Cordless Cut-Off Tool / Angle Grinder (Bare Tool) - PC18AGR, Grinding Wheel, (2) Cut-Off Wheels, Side Handle, Grinding Guard, Metal Cutting Guard, Wrench



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Porter-Cable 59370 Door Hinge Template

Special Price!!! Porter-Cable 59370 Door Hinge Template

Oct 29, 2011 00:48:51

Porter-Cable 59370 Door Hinge Template
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Porter-Cable 59370 Door Hinge Template

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Porter-Cable 59370 Door Hinge Template Feature

  • Quick and easy set up with lock-in pins to ensure security
  • Complete with double headed nails for easy removal
  • Included along with the template are a high-speed mortiser router bit with bearing brads, instructions
  • 8 hinge sizes from 2-1/2 inch to 6 inch and 5 door sizes from 1-3/8 inch to 2-1/2 inch
  • Made from Fiberglass, reinforced plastic with extended platform for better router stability


Porter-Cable 59370 Door Hinge Template Overview

Use this affordable, time saving template kit to hang one or more doors with any 1/4 inch collet router. Easy to set up; just mark the hinge location, tack the template in place with the included brads, and make the perfect, factory quality looking cut. The 59370 Door Hinge Template includes 8 hinge sizes from 2-1/2 inch to 6 inch and five door sizes from 1-3/8 inch to 2-1/2 inch.



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Porter-Cable PC180DK-2 18-Volt NiCd Drill/Driver Kit

Special Price!!! Porter-Cable PC180DK-2 18-Volt NiCd Drill/Driver Kit

Oct 28, 2011 02:52:15

Porter-Cable PC180DK-2 18-Volt NiCd Drill/Driver Kit
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Porter-Cable PC180DK-2 18-Volt NiCd Drill/Driver Kit

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Porter-Cable PC180DK-2 18-Volt NiCd Drill/Driver Kit Feature

  • High torque motor and gearbox
  • 1/2-inch metal single sleeve chuck
  • 2 speed gear box (0-to-350 RPM and 0-to-1,400 RPM)
  • Generates 440 in-lbs of max torque for tough applications
  • Included two PC18B NiCd batteries, NiCd fast charger, double ended bit tip, kit box


Porter-Cable PC180DK-2 18-Volt NiCd Drill/Driver Kit Overview

The Porter-Cable 18V drill/driver kit includes a high-torque motor and gear box and generates 440 in. lb. of maximum torque for tough applications. A 1/2-inch metal single sleeve chuck offers excellent bit retention and durability and a 2 position gear box offers flexibility for high speed drilling and driving and low speed for high torque applications. The 32 position clutch with micro adjust torque is great for driving various size screws. It includes 2 (model No. PC18B) batteries, charger, double ended screwdriving bit, and kit box and comes with a 3 year warranty.

Porter-Cable PC180DK-2 18-Volt NiCd Drill/Driver Kit Specifications

Ideal for tough applications, the Porter-Cable PC180DK-2 18-volt cordless NiCad drill/driver kit features a high torque motor and gearbox capable of 440 inch-pounds of max torque. Other features include a 1/2-inch metal single sleeve chuck for excellent bit retention and durability and a 2-position gear box for high speed drilling and driving and low speed high-torque applications (0-to-350 rpm and 0-to-1,400 rpm). Its 32-position clutch with micro-adjust gives consistent torque control for driving various size screws and an integrated LED light illuminates hard to see work areas. This drill/driver measures nine inches long and weighs 5.1 pounds. This kit comes with two PC 18-volt NiCad batteries for extended run time for larger projects, a fast charger that charges batteries in under an hour, a double ended bit tip, and a kit box.

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Porter-Cable PC3013 Oscillating Flush Cut Blade

Special Price!!! Porter-Cable PC3013 Oscillating Flush Cut Blade

Oct 26, 2011 20:16:33

Porter-Cable PC3013 Oscillating Flush Cut Blade
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Porter-Cable PC3013 Oscillating Flush Cut Blade

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Porter-Cable PC3013 Oscillating Flush Cut Blade Feature

  • 4.0-Inch blade for faster and larger cuts
  • 270 degree cutting surface provides larger cutting area
  • Tool free fitment allows users to change accessories quick


Porter-Cable PC3013 Oscillating Flush Cut Blade Overview

For cutting plywood and drywall, this blade has a smaller tooth configuration for cleaner cuts. Porter-Cable Model PC3013



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Porter-Cable BN200B 5/8-Inch to 2-Inch 18-Gauge Brad Nailer

Special Price!!! Porter-Cable BN200B 5/8-Inch to 2-Inch 18-Gauge Brad Nailer

Oct 24, 2011 16:46:08

Porter-Cable BN200B 5/8-Inch to 2-Inch 18-Gauge Brad Nailer
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Porter-Cable BN200B 5/8-Inch to 2-Inch 18-Gauge Brad Nailer

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Porter-Cable BN200B 5/8-Inch to 2-Inch 18-Gauge Brad Nailer Feature

  • Long life maintenance-free motor to keep from staining the work surface
  • Internal piston catch for consistent max power on every shot
  • Rear exhaust to keep contaminants away from work
  • Drives 18 ga. nails from 5/8-inch to 2-inch length; Tool-free depth-of-drive adjustment with detents for proper setting of nail heads
  • Measures 9-3/4by10.4 inches; weighs 2.6 pounds


Porter-Cable BN200B 5/8-Inch to 2-Inch 18-Gauge Brad Nailer Overview

The Porter-Cable BN200B 5/8-to-2-inch 18-gauge Brad Nailer comes with a maintenance-free motor for added reliability and long tool life. With the ability to drive 5/8-to-2-inch 18-gauge nails, this brad nailer features an internal piston catch for consistent maximum power on every shot and a rear exhaust to keep debris away from the work piece. Also included is a tool-free depth-of-drive adjustment with detents for proper setting of nail heads, a tool-free jam release mechanism for easy nail removal, and a sequential style trigger with a lock off switch. Other features include a contact safety located behind the driver guide for better visibility, an adjustable belt hook, an integrated rubber grip for improved comfort, and a low nail reload indicator. With a 100-nail magazine, this nailer operates at 70-to-120 PSI for added versatility. Its strong and lightweight die-cast aluminum body measures 9-3/4 x 10.4 inches and weighs 2.6 pounds.



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Woodworking 101 - How to Properly Edge-Glue Boards Into Panels

There are several steps to consider in the process of edge-gluing lumber including (1) lumber selection, (2) cutting to rough length, (3) ripping, (4) jointing, (5) grain matching, (6) biscuit joining, (7) gluing, (8) clamping and (9) thickness sanding. Just how you go about these steps depends on the condition of the lumber, the capacity of your machinery and the final size of the glue-up.

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LUMBER SELECTION:

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If at all possible, try to have all boards in the glue-up out of the same tree. If that is not possible, select lumber that is of similar color and grain pattern. To my mind, the ideal glue-up looks like one, extremely wide board with the glue joints barely visible to the naked eye. Since this only an ideal, I always try to get as close to it as possible.

Another, less-important goal would be to have all boards in the glue-up of the same approximate width. I am not suggesting ripping the wider boards down to match the narrowest board as this would be a terrible waste of expensive lumber. I do suggest, however, ripping extremely wide boards in two to minimize the possibility of curling due to changes in humidity after delivery.

Straight or ribbon grain makes the best homogeneous final appearance while wavy or swirly grain makes for an interesting but more difficult glue-up. Swirly grain will require orientation of the individual boards to minimize the number of places that the grain line suddenly stops at the glue line rather than appearing to continue into another swirl in the adjacent board. This orientation is highly subjective.

CROSS-CUTTING TO ROUGH LENGTH

I always rough-cut my lumber into lengths an inch longer than the length of the final product. This allows the entire glue-up to be neatly trimmed to size after the glue is dry. It also makes the ripping and jointing process a lot easier as I will explain below. The same is true for the width of the glue up: Make sure it is about an inch wider than the final product after trimming.

RIPPING

Kiln or air-dried lumber often decides to bow into a curve as it dries and this must be corrected before a glue-up can be accomplished. If my finished glue-up is only 3 feet long and it is coming out of a 14-foot bowed board, it will be far easier and economical to get the curve out of the 3-foot pieces than it would to remove the curve from the entire 14-foot board before cross cutting. This is one reason that you should always do your rough cross-cutting before ripping and jointing. Another reason is that a 14-foot, 2" thick x 12" wide board is pretty difficult to control on a jointer or table saw.

If there is a bow in one or more of your rough-cut pieces, those pieces should first have the curved edges ripped off on the table saw. The concave side of the board should always be towards the fence. Measure from the fence out to the outside of the end of the board that is nearest the fence and set the fence to cut this width. Once you have trimmed off the convex side of the board, flip it over side-to-side and find the point where the outer edge of the board is closest to the fence (somewhere near the middle) and rip the board to that width. When all boards have been ripped straight, take them to the jointer.

JOINTING

The jointing process should now be fairly easy in that the boards have been ripped straight. Take shallow depth cuts to minimize the possibility of tear-out. In loose-grained lumber with a lot of swirls on the face side, tear-out is sometimes unavoidable. If this happens, try running the board over the jointer head in the opposite direction. If the tear-outs persist, you will have no other option than to rip the tear-outs away on the table saw. You will then have a sawn edge in your glue-up. If you have a clean-cutting table saw blade like a recently sharpened Forrest Woodworker II, this should not be much of a problem, especially if you plan on using a biscuit joiner to secure your glue-up. You probably won't be able to tell which glue lines are jointed and which are ripped in the final product.

GRAIN MATCHING

Lay out all the boards on your work bench and arrange them for best appearance. Obviously, if one side of the final product will show more than the other in a piece of furniture, then you will want to have the best-looking sides all on that side of the glue-up. Examples of this would be table tops and cabinet doors. You also must orient the boards so that the glue-lines are not accentuated, as discussed in the paragraph on lumber selection above.

BISCUIT JOINING

Whenever possible, make sure that you biscuit-join your glue-ups. I say, "Whenever possible" because you will not be able to use a biscuit joiner on very thin lumber. On the other hand, very thin lumber (3/8", for instance) does not usually have enough strength to pop open a joint. So, with very thin lumber, you will simply be using glue without biscuits. With regard to lumber ¾" or thicker, I have seen a number of table tops, cabinet doors and cabinet casings open up along a glue line after delivery. At this point, repairs are difficult or impossible so the extra step of biscuit joining is well worth the minor time and expense. Look on it as major headache insurance! If you don't yet own a biscuit joiner, there are a number of great machines out there including Porter Cable, Lamello and Freud. There are also two good alternatives to using a biscuit jointer: Those are the Festool Domino floating tenon joiner and the Freud Doweling Joiner. Different methods, same result.

When you have your boards laid out the way you want them in the glue-up, make sure all the ends are flush and the edge joints are touching. Double-check to make sure the glue-up will be about an inch wider than the final product after trimming. With a builder's square or a straightedge mark a pencil line in 4" in from each end of the rough glue-up across the grain, crossing all glue lines but not continuing over the side edges of the glue-up. Make a similar pencil line across the grain at the mid-point of the boards. Make additional pencil lines half-way between the other pencil lines until all pencil lines are about 6" apart.

Mark the boards on one end "A","B","C" or "1","2","3", etc. so that you can put them back together in the same order when it is time to glue them up. Put the boards aside and nail, screw or clamp a stop board (scrap) to the bench top, left to right in front of you and about a foot in from the edge of the bench. As you are applying pressure with the biscuit jointer, while making mortises for the biscuits, this stop board will keep the board you are mortising from moving away from you. Make a mortise wherever a pencil line touches a board edge on every board.

GLUE-UP AND CLAMPING

There are two ways to clamp up a glue-up: horizontally on the bench top and vertically with the first board mortised-edge-up in a woodworking vise on the end or side of the bench. In the case of horizontal glue up, place pipe or bar clamps about 2 feet apart on the bench top with the clamp handles hanging slightly over the edge of the bench. Pre-adjust the clamps to an inch larger opening than they will be when tightened. Place the first board on edge on top of and across the clamps with the mortises facing up. Do the same with all the boards, in order. Make sure you have sufficient biscuits for the job ready.

A small dispensing glue bottle with sufficient glue for the job should be within easy reach. The type of glue is important: If the glue dries too quickly you will have big problems and if the glue dries too slowly, you will be losing valuable production time. I like to use Franklin Titebond Glue indoors or Franklin Titebond II for outdoor applications. These are "aliphatic resin" type glues that can be easily cleaned up with water. Ether formula gives a very strong joint and has a reasonable, 45-minute clamping time. Both of these glues are widely available in hardware stores, home improvement centers and woodworking stores.

Run about a 1/8"-thick glue line down the center of the edge of the first board, making sure that the glue drops into every biscuit mortise along the way. Then apply short glue lines on both sides of every mortise. This should result in sufficient glue so that it appears squeezed out of both sides of every glue joint after clamping. Insert a biscuit into each mortise. With 2" lumber, you may need an extra glue line for the full length of the joint. There is no such thing as too much glue because you can wipe up the excess with a wet rag. There is, however such a thing as not enough glue and you will recognize that condition when you see that glue is not being squeezed out of the full length of both sides of the glue joint. That is called "starving the joint" and starved joints often open up later. Glue is cheap! Don't skimp on it!

Lay down the first board with the letter or number up and the mortised edge away from you. Apply glue in the same manner to each succeeding board wherever there are mortises and place biscuits in the far edge of each board, except, of course the last board.

The board ends should be flush and the left clamp should be about 6" in from the end. The right clamp should be about 1-foot six inches in from the right end. This is because you will be placing alternately spaced clamps on the top side of the glue-up so that there is a clamp (top or bottom) about every foot. The top, right clamp will be in about 6" from the right end.

Once you have all of this in place, start tightening the clamp handles. Clamp all the bottom clamps finger tight, then the top clamps finger tight. Then, go down the row of clamps tightening them fully, bottom, top, bottom, top, etc. With a wet rag, wipe off most of the excess glue. Turn over the entire glue-up and wipe the other side. Look at your watch or clock and add 45 minutes to the time. This will be the minimum clamping time, any time after which you may remove the glue-up from the clamps. Mark this time on the glue-up with a felt pen. If you have multiple glue-ups, you can stand this glue-up against a wall to get it out of the way while it dries.

If you have been paying attention to the above, then you can figure out how to do a vertical glue-up in a vise which is suitable for smaller glue-ups and is easier to manage. The difference is that when it comes time to apply the glue, you will clamp the first board at its center in the vise with the mortises facing up. Apply the glue and biscuits. Apply glue to the mating edge of the second board and place it in correct orientation on top of the first board, and so on. Place the first clamp 6" in from the end, in front, the second clamp a foot away from the first clamp, in back and so on.

Once your glue-up is out of the clamps, it is ready to be thickness sanded either in a drum sander or wide-belt sander. If you don't have either of these machines, don't worry. Most professional furniture-manufacturing shops in your area will be happy to thickness sand your glue-ups for an hourly rate. You might want to consider buying your own drum sander or wide-belt sander, if you can justify the expense.

It is best to know the maximum width capacity of the sanding machine you will be using: 48"-wide glue-ups will not pass through a 36"-wide sander. If you know that you will have this limitation in advance, simply make two, 24" glue-ups and glue those together with biscuits after the thickness sanding is complete. The glue line won't be perfectly even and so it will have to be sanded true with a random orbit sander. Your glue-up should be sanded to at least 150 grit. 220 grit is even better. Trim the glue-up on the table saw to its final dimensions, rout the edges, if appropriate, and then random orbit sand the final piece to 220 or 320 grit before finishing.

For some woodworkers, gluing up lumber may not be the most interesting part of the craft. It is one of the most important, however, because a glue-up done incorrectly can be a recipe for disaster. Furthermore, the way you orient the boards in the glue-up will have a lasting and irreversible effect of the beauty of the finished project.

Bob Gillespie

Woodworker

©2010 Robert M. Gillespie, Jr.

Woodworking 101 - How to Properly Edge-Glue Boards Into Panels
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Special Price!!! Porter-Cable 390K 5-Inch Low Profile Random Orbit Sander Kit with Hook & Loop Pad and Dust Collection

Oct 23, 2011 18:53:23

Porter-Cable 390K 5-Inch Low Profile Random Orbit Sander Kit with Hook & Loop Pad and Dust Collection
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Porter-Cable 390K 5-Inch Low Profile Random Orbit Sander Kit with Hook & Loop Pad and Dust Collection

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Porter-Cable 390K 5-Inch Low Profile Random Orbit Sander Kit with Hook & Loop Pad and Dust Collection Feature

  • 3.5 Amp EnduraTech Motor for increased performance and durability
  • Electronic Load Control for 42% faster material removal
  • EnduraTech Motor Technology has 71% fewer wear components for 5-10 times longer motor life
  • Electronic motor brake reduces spin-down time by 73% for increased productivity; Mechanical pad brake reduces free-spin to virtually eliminate gouging
  • Integrated dust port accepts 1- and 1-1/2-inch vacuum hoses; includes kit box


Porter-Cable 390K 5-Inch Low Profile Random Orbit Sander Kit with Hook & Loop Pad and Dust Collection Overview

Efficient, thorough, and easy to control, the Porter-Cable 390K Low-Profile Random-Orbit Sander has a low center of gravity for the close to the work feel of an air sander with the convenience of a standard electrical plug. Its 3-1/2 amp ENDURATECH brushless motor ensures robust, time-saving performance on a variety of materials, including red oak, pine, and poplar. The sander also features integrated dust collection that keeps your workspace cleaner and healthier.

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390K Low-Profile
Random-Orbit Sander
At a Glance:
  • Low-profile sander with a low center of gravity for a 'close to the work' feel

  • Variable speed range of 7,000 to 12,000 rpm for optimal removal rate

  • Integrated dust collection for a cleaner workspace

  • Three-year warranty
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Black and Decker Porter-Cable 390K Low-Profile Random-Orbit Sander

Remove paint or sand wood to a fine finish with the orbit sander's variable speed range of 7,000 to 12,000 rpm. View larger.

Porter-Cable 390K Low-Profile Random-Orbit Sander

Rubber grip and ergonomic features provide comfort during extended jobs. View larger.
Robust Performance in a Compact Package
The 390K is a powerful, compact sander ready to take on a variety of heavy-duty jobs. It's ideal for aggressive sanding, coating removal, leveling seams, smoothing rough material, solid surface work, and boat-bottom cleanup.

ENDURATECH Motor for Improved Productivity and Durability
The 2008 winner of the WOOD Magazine Top Tool Award, the 390K boasts ENDURATECH brushless motor technology for 70 percent fewer wearable parts, which increases the motor life by up to 10 times when compared to traditional palm-grip sander motors. The result is greatly improved productivity, durability, and control.

Low-Profile Design for Optimum Control
The 390K sets a new standard for palm-grip sanders. Its low-profile design is 30 percent shorter than the competition. This means you'll get optimum control and finish, as well as comfortable handling on the job.

Variable Speed Range for Versatility and Precision
Versatile and powerful, this sander has a variable speed range of 7,000 to 12,000 rpm for optimal removal rate on a variety of materials. Electronic load-control monitors the rpm and maintains a constant operating speed for smooth sanding and over 40 percent faster material removal.

Innovative Brake Designs Save Time and Reduce Free-Spin
Also, the 390K saves you time with its innovative electronic motor brake, which reduces spin-down waiting from close to 10 seconds to approximately 3 seconds.A separate mechanical pad brake reduces free-spin--effectively putting an end to gouging, and a 3/32-inch orbit diameter means this sander can handle a range of materials with ease.

Compact, Ergonomic Design with Integrated Dust Port
The 390K measures 4 by 5 by 12 inches (W x H x D) and weighs just 2.1 pounds, so it's compact and easy to store. Its rubber grip and ergonomic features maintain user comfort, even during extended jobs.

For further convenience, an integrated dust port accepts 1-inch and 1-1/2-inch vacuum hoses for optimal dust collection. This makes your workspace cleaner and healthier and helps maintain good visibility of your workpiece.

Warranty Information
The 390K is backed by a three-year warranty.

What's in the Box
Random-orbit sander kit, 5-inch hook-and-loop pad with eight-hole pattern, rugged storage case, and user manual.






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The Cass Scenic Railroad

Morning mist, like a transparent sheath, rose from the green-carpeted Cheat Mountain in West Virginia's Monongahela National Forest on that Memorial Day weekend, but the hot sun quickly intercepted it during its gentle ascent, leaving a flawlessly blue sky.

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Like a pocket of history, somehow frozen in time, the town of Cass, accessed via curving, mountain-hugging roads and a short, Greenbrier River-traversing bridge, sported its railroad depot, historic buildings, and dual tracks, all cradled by a valley in Back Allegheny Mountain. The tracks themselves, stretching toward and disappearing into a dense forest, were the very reason for the town and its railroad and also the reason why neither disappeared into history.

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Densely covered with virgin forests during the late-19th century, West Virginia ubiquitously sprouted oak, hickory, pine, walnut, and chestnut at its lower elevations and hemlock, spruce, maple, and birch at its higher ones, providing rich lumber resources, with its eight- to nine-foot diameter trees, for the houses, stores, churches, and schools demanded by the state's increasing population.

Logging, once dependent upon rivers to power sawmills, evolved into a significant industry with the concurrent development of the steam engine and the circular saw, a combination which permitted location anywhere the operation required it, independent of external water power.

Trees were traditionally felled, cut into manageably sized logs, propelled down slopes by means of wooden skids to streams, and transported to mills on log rafts.

Because of the inherent imprecision and danger of the manual skidding method, the Lidgerwood Company of New York designed the first steam-powered skidder, which constituted another logging industry advancement. First used in West Virginia in 1904, the device, featuring a mile of 1 7/8-inch thick cable which extended up to 2,600 feet, was either mounted directly on the ground or atop a rail-provisioned flat car, gripping the log and transferring it from forest to stream in a secure, controlled manner. It significantly increased the capability of the horse-drawn method it often replaced.

Water-born logging rafts, as equally imprecise because of rock, boulder, branch, and rapids obstructions during the summer and ice in the winter, were eventually replaced with steam-operated loaders and logging railroads.

Large band saws, substituting for the earlier, circular device, converted timber into lumber more rapidly, precisely, and efficiently, eliminating needless waste, and had an average daily capability of 125,000 board-feet.

By the late-19th century, West Virginia had become one of the country's largest lumber producers, more than one hundred railroads transporting raw timber to mills for cutting and processing before being shipped for sale as a finished product. Peaking in 1909, the industry cut some 1,473 million board feet of lumber per year.

One of the most major logging operations had been the West Virginia Spruce Lumber Company. Founded in 1899 when John G. Luke acquired more than 67,000 acres of red spruce in West Virginia, it was a subsidiary of the West Virginia Pulp and Paper Company located in Covington, Virginia.

The Chesapeake and Ohio Railroad, foreseeing a need for freight and lumber transportation, hastened its own plans to extend its track into northern Pocahontas County, incorporating a subsidiary designated the "Greenbrier Railway Company" in 1897 and commencing roadbed and track construction two years later. The line reached the area that December. Threshold to virgin forests, it was uniquely positioned to carry timber to the Covington sawmill and also to connect with the Coal and Iron Railway, which itself was later amalgamated into the Western Maryland Railway.

Although it provided a vital link, it did not penetrate the mountain-clinging forests themselves, nor did it possess the proper locomotive equipment to do so. Logging railroad track, by necessity, exhibited several unique characteristics. Mountain forests usually dictated both sharp curves, which could equal 35 degrees, and steep grades, which required switchbacks to surmount, while track needed to be portable, moved after each area was cut and depleted. Resultantly, it was usually built up of short, skinned logs directly laid on the bare earth, without the benefit of prepared roadbeds, and the rails themselves were then spiked to them. Rail weight, ranging between 50 and 75 pounds per yard, was more than sufficient.

Although these temporary, impromptu tracks fulfilled the immediate need before being moved to the next location, they were ill-suited to conventional, rod-type locomotives with their rigid frames and fixed driving axles. Often falling victim to imperfections, they slipped and frequently derailed. What was needed was an engine with numerous, small drive wheels, ideally ranging between eight and 16, which could deliver low-speed traction, continuous contact, positive power, and effective braking, yet exhibit considerable flexibility.

Ephraim Shay, a Michigan logger who was well acquainted with such obstacles, designed the first articulated locomotive for logging purposes in 1874. Its driving force was subdivided into the cylinders-connecting rods and the driving wheels mounted on pivoting trucks, the side-mounted cylinders themselves counterbalanced by an offset boiler, while the tender truck's own driving axles both contributed to this force and added to the locomotive's adhesion weight. The geared steam engine, replacing the conventional locomotive's rod-driving propulsion system, was equally easy to maintain and repair with its entirely exposed parts.

The first such Shay, patented and constructed by the Lima Machine Works of Lima, Ohio, in 1880, featured slide vales, a vertical boiler, and eight drivers.

Later, progressively larger examples sported three right-side mounted vertical cylinders counterbalanced by a left side boiler, which itself provided clearance for the cylinders, and a small water tender-connected coal bunker located immediately behind the cab. Since the engine was seldom far from either a coal or water supply, its relatively small capacity proved sufficient.

Cylinder pistons, by means of bevel gears, enabled each truck to independently negotiate the rail's imperfections and their small, 36-inch drive wheels provided the needed adhesion and traction. Yet, since all wheels were interconnected either by line shafts or axles, single-wheel slippages were impossible.

The Shay locomotive, enjoying a 2,771-production run between 1880 and 1945, proved to be the most ideally-suited and numerically most popular powerplant for logging operations, whether specifically in West Virginia, where more than 400 were employed, or elsewhere. It also had limited application for steep-grade, heavy-load lines and industrial switching.

The West Virginia Pulp and Paper Company's first locomotive was a two-truck, 42-ton Shay.
The first pulpwood shipment to the Covington, Virginia, paper mill, hauled by the Greenbrier Railway Company, was made on January 28, 1901, but what was needed for more immediate processing and independent operation was a strategically located sawmill. This became operational the following year.

In order to support the massive workforce required for a rapidly expanding logging enterprise, a company town, designated "Cass" after West Virginia Pulp and Paper Company Vice President Joseph P. Cass, arose from a small farming community and wagon road river crossing previously called "Leatherbark Ford."
Carefully planned and revolving round the sawmill itself, the incorporated town, with an official major and council, was located on one side of the Greenbrier River and boasted of a 2,000-strong population, sustained by houses, schools, stores, offices, churches, and civic and social organizations. It quickly blossomed into one of West Virginia's largest boom towns.

Its three-story Pocahontas Supply Company store, constructed in 1902 and partially rebuilt 16 years later after fire had consumed its upper floor, sold everything from food to appliances to furniture and was the nucleus of the town. It had also served as the site of the US Post Office and the lumber company's offices.
The smaller shop next to it housed Nethkin's Meat Market.

Residents used wooden boardwalks to negotiate the area by foot.

Contrasted with the brothels and hotels located on the town's east side, which was alternatively dubbed "East Cass" or "Dirty Street," the dual-structure comprising the Cass Hotel was frequented by businessmen, workers in good standing, and respected visitors.

The elite, in general, lived in the town's Big Bug Hill section.

The mayor's office, replacing a temporarily employed boxcar for incarcerations, ironically housed the more permanent jail on its first floor and the mayoral headquarters on its second.

Between 1901 and 1920, the railroad had constituted Cass's only access.

Propelled by its small Shay locomotive, the West Virginia Spruce Lumber Company commenced logging railroad operations in January of 1901, pulling red spruce-piled flat cars over an initial eight miles of off-line track in order to supply the Covington paper mill with pulpwood until Cass's own mill had been completed the following year. By 1908, the operation had sustained dramatic growth, with logging trains running both day and night, supported by 200 draft horses and 1,000 men and supplying the mill with hemlock and spruce bark. Forty-four daily cars hauled raw material and finished products from Cass.

After subsidiary West Virginia Spruce Lumber Company had been acquired by and amalgamated into parent Pulp and Paper, and the operation had entered its second life phase, the railroad had been rechartered as the Greenbrier, Cheat, and Elk, opening a main line into the Elk River Watershed in order to log a 2,000-foot-long by 100-foot-deep area designated the "Big Cut," then the largest and most costly engineering project ever undertaken by an eastern logging company. Comprised of 82 miles of main and 40 additional miles of spur line track at its peak, it enjoyed 21 years of common-carrier operations.

A typical logging operation entailed cutting the designated trees, skidding them down the slope to the tracks, and loading them, as log limbs, on to the flatbed cars, cradled between vertical, side-forming and -mounted wooden stakes, which formed pockets. After being transported to the mill, they were unloaded in to the mill pond, at which time pike-provisioned men channeled them on to jack slips-inclined, cleated, conveyor belt-like chains-for travel into the actual mill's sawing room. The finished product, assuming the form of cut board, was then dried and reloaded on to standard-gauge trains pulled by traditional rod locomotives for distribution to the company or lumber yard which had ordered them.

The mill, equipped with 11 miles of steam pipes, cut more than 125,000 board feet of lumber per shift and dried 360,000 per run, there having been two 11-hour shifts per day, scheduled six days per week, resulting in 1.5 million board feet per week and 35 million per year.

The West Virginia Pulp and Paper Company, having grown into one of West Virginia's largest logging enterprises, was continually subjected to expansion, as evidenced by its statistics: the Greenbrier, Cheat, and Elk Railroad had operated over 66 miles of track by 1917 and over 101 miles four years later, when the workforce had exceeded 1,500.

But, by the time World War II had raged, the forests surrounding Cass had been depleted, despite still-prevalent hardwood and second-growth trees below Bald Knob. The West Virginia Pulp and Paper Company, unable to justify the economic viability of extending its track into the timber span, sold the operation to F. Edwin Mower, head of the Charleston-based Mower Lumber Company. Demand for southern yellow pine, traditionally used for paper production, had already precipitated a decline and 68,000 acres had been sold to the US Forest Service in 1936. The remainder had been acquired by Mower. The West Virginia Pulp and Paper Company thus entered the third phase of its life, albeit under a new name.

Laying 12 miles of short branch track off the Cabin Fork Line to Bald Knob, the Mower Lumber Company was able to continue harnessing the precious wood resource. But with only 65,000 acres remaining by 1960, a handful of still-unharvested hardwood patches, and deteriorating rolling stock and machinery, it only operated three weekly trains pulled by an equal number of Shay locomotives, and finally ceased operations on June 30 of that year. Victim, like most of the other logging railroad enterprises to forest depletion and new, automated mill processing methods, it retreated into the history books, leaving less than half-a-dozen concerns in West Virginia. Its track, mills, machinery, engines, and cars almost went with it.

The Midwest Raleigh Steel Corporation, to which the operation's components had been sold, began dismantling its track, with the intention of having it completely removed before the onset of winter, while the locomotives, rolling stock, and logging equipment would be junked. Walworth Farms, a landholding company, acquired its wooded property.

Russel C. Baum, a Pennsylvania rail fan who coincidentally spent a three-day vacation in Marlinton, West Virginia, during this time, witnessed the painstaking dismemberment process, but immediately foresaw the historical and tourist value of the railroad.

Commencing a campaign to save it and pleading his case in Charleston's Capitol Building, he was able to obtain a temporary injunction which dictated suspension of the dismantling process, and a committee, formed for the purpose of investigating its tourism potential, ultimately recommended that the state acquire its roadbed, rolling stock, and 40 acres on Back Allegheny Mountain for 0,000. It would then be operated by the Department of Natural Resources. On June 15, 1963, the operation entered its fourth life phase when the Cass Scenic Railroad was born.

Pulled by Shay locomotive #4, the first passenger-carrying excursion train left Cass and the railroad carried 23,106 during its first year of operations. That number has increased every year since. Restoring the line to fully operational status, it opened the second portion, to Bald Knob, on May 25, 1968, to the excursion train, its tracks having now carried both logs and passengers.

On the same date, Cass Scenic Railroad State Park, which includes almost 100 buildings in the town itself, was added to the National Register of Historic Places, and today, as a unit of the West Virginia Park System, is the site of the nation's longest-running tourist railway, the geared steam locomotive, the mill town, the locomotive repair shop, the Cass Company store, the Last Run Restaurant, and the Shay Railroad Shop.

The Cass Mill, having been owned by the West Virginia Spruce Lumber Company between 1902 and 1910, the West Virginia Pulp and Paper Company between 1910 and 1942, and the Mower Lumber Company between 1942 and 1960, had been comprised of the drying kilns, the boiler house, the powerhouse, the sawmill itself, the millpond, and the storage area for finished lumber, all located between the tracks and the Greenbrier River. Reconstruction occurred from 1922 to 1923 because of fire, the reason for its final demise during the 1980s.

II

Belching thick, black smoke from its stack and clanging its bell, Shay locomotive #6 pulled its still-empty cars to the Cass depot on the left of the two main tracks 30 minutes before its 1100 departure to Bald Knob on that late-May morning, a four-and-a-half hour, 22-mile round trip journey.

The cars themselves consisted of six wooden, converted logging cars with paneless windows, a roof, and side-facing bench seats, painted green with red window trim, and a single wooden, enclosed coach with forward- and aft-facing, booth-like seats, designated "Leatherbark Creek."

The depot next to which they stood, constructed here in 1901 to serve the just-completed Greenbrier Division of the Chesapeake and Ohio Railroad, was modified in 1923 to accommodate an increasing volume of freight and passengers, but the present wooden, white-painted structure was rebuilt in 1979, four years after fire had claimed the original one.

The 162-ton, Class C-150 Shay locomotive #6, originally constructed for the Western Maryland Railway and the largest of its type, had been shipped to Elkins, West Virginia, on May 14, 1945 for service on the nine-percent graded Chaffee Branch. The three-truck engine, with 48-inch drivers, a 17-inch bore, and an 18-inch stroke, was then donated to the Baltimore and Ohio Museum, in Baltimore, Maryland, after four years, and was subsequently exchanged for a Cass Scenic Railroad Porter 0-4-0 after another 26. Other locomotives in its inventory include the 93-ton Shay #2, the 80-ton Shay #4, the 90-ton Shay #5, and the 103-ton Shay #11. A 70-ton Shay #9 and 100-ton Heisler #6, although not currently operational, round out the fleet.

Emitting an ear-shattering whistle and releasing a volcanic eruption of billowing, blinding black smoke, the Shay #6, assuming a pusher-configuration, bit into the rails and prodded its cars into abrupt motion, steam pressure pulsing its pistons which then rotated its crankshaft, and this, in turn, rotated the all-driver wheels through reduction gear. Plying the tracks acquired by the state park in 1978 after the Chesapeake and Ohio's Greenbrier Division had operated its last freight service on them, the train moved past the water tank, which had been shared with the C&O, but is presently a replica which had been installed in 2005. It also marked the spot, at the junction switch, where the logging railroad actually began.

The deadline, cradling several locomotives, was the service area for coaling, sanding, and repairing.
Crossing Back Mountain Road, the train trundled near the original, 1901 track, which had been on a cribbing through the wet bottomland of Leatherbark Creek, and the bridges which had traversed it had been little more than wood stringers until they had been replaced by steel structures in 1959. West Virginia's highest stream, the creek itself flowed from a point below Bald Knob.

Rumbling and vibrating with every track joint traverse, the chain of cars commenced a four-percent graded ascent through a cool, almost sun-obstructing forest of tall spruce, hemlock, white pine, and red spruce trees, the raw timber which constituted the very reason for the railroad's creation. Most had now been third-cut vegetation, with the patches receiving the most sunlight having been the first to regrow.

In order to avoid an excessive amount of circumventing track and gain the maximum amount of elevation in the minimum amount of distance, the logging railroad installed two switchbacks, the lower of which was reached at mile 2.3. Ceasing motion beyond the actual v-configured rails before releasing a soot-reeking geyser from its stack and assaulting the forest's solitude with a billowing stream of coal cinders, the Shay locomotive, puffing and panting, lurched its cars in a pulling mode, filling its lungs with every chugging breath as the crankshaft provided the vital connection between the vertical pistons and the rotating wheels. Settling into a rhythmic, albeit explosive, forest-echoing chug, the mass re-established motion.

Initiating a 22-degree curve on a 3.65-percent grade, the Bald Knob run arced into the 158-degree circle characterizing Gum Curve at mile 2.6. The sun-illuminated clearing, comprised of rolling, velvet-green pastures, revealed the equally green waves of the highlands off the left side.

At mile 3.1, the train's seven cars, bombarded with lung-choking steam and smoke, moved past Limestone Cut, the track's roadbed having been created after limestone rock itself had been hand-cut with the aid of picks, shovels, black powder, and horse-drawn pans.

Once again immersed in dense, dark forest, the railroad maneuvered through an arrest-reinitiated motion sequence as it spewed black plumes to the towering treetops and negotiated the upper switchback, the locomotive assuming its pusher-configuration.

Mountains, varying in color with distance, seemed to roll and crest, like ocean waves, dividing the line between Virginia and West Virginia. Those closest to the train appeared green while those furthest from it appeared dark-blue to gray.

Commencing a 0.2-mile, s-curve at a 7.1-percent grade, the train crossed the access road to Whittaker and surmounted a plateau, a sanctuary-exuding meadow in the middle of a steep forest flanked on either side by densely treed mountains. Having climbed from 2,452 feet at Cass to a current 3,250 at Whittaker Station, the Shay engine breathed a sigh and suspended its journey at 1145.

Aside from the views of Cheat Mountain and the snackbar facilities, the station itself afforded the opportunity to experience the Mountain State Railroad and Logging Association's reconstructed logger's camp.

Originally the site of a Hungarian railroad laborer's camp during the turn-of-the-century, the present reconstruction, depicting a later set-up from about 1946, featured three tracks on which railroad cars, equipment, and miners shanties were positioned, the latter built using measurements from actual structures near Bald Knob.

Although such camps were usually isolated, spartan, and offered little more than a suspension between work shifts to facilitate washing, eating, and sleeping until the person could return to the main logging town, such as Cass, they were an integral part of West Virginia railroad logging from the late-1800s to 1960.

Because the activity had constituted the predominant growth industry during this period, and because timber companies needed significant numbers of immigrant workers to meet their operational requirements, they usually contracted large city-located labor agents to screen and hire them. Typically, they encompassed people from Italy, Sweden, Germany, Austria, Hungary, Russia, and Poland. The camps, crude and crowded, employed kerosene lamps for light and coal or wood for heat. Food, in copious quantities, was vital to worker productivity.

The Whittaker camp's four-wheel logging caboose, constructed by the Baltimore and Ohio Railroad in 1883, was usually attached at the end of logging trains and accommodated by brakemen and management-level personnel so that they could inspect remote sites. Later employed in Swandale, Clay County, it was finally acquired by the Cass Scenic Railroad.

The camp's several shanties, which utilized less-than-premium lumber and were transported from area to area after it had been depleted of trees, exemplified the structure's size and internal facilities relative to position importance. The wood shanty was tiny. The filer's shanty contained a larger window to provide maximum light for saw sharpening. And the desk-provisioned surveyor/cruiser shanty was housed by the men who determined which timber should be cut and how it should be removed from the mountain.

The kitchen and dining car, sporting a long,, bench-lined, internal table for eating, and the abundant portions served on it, were tantamount to sustaining logging operations, since the human bodies were the primary "machines" involved in the operational chain, over and above the mechanical ones, and therefore had to be properly "fueled." There had been little else to which loggers would look forward during their nocturnal downtimes.

Sleeping in spartan surroundings, as evidenced by the lobby/bunk car, was the standard until the worker could return to home and family in the company town. A stove provided warmth and a method by which wet clothes could be dried throughout the night.

The diesel-powered log loader, usually riding car-fastened rails and thus capable of both independent and collective movement with the remainder of the train, facilitated log transfer from ground to rolling stock. The camp's example was capable of handling tree-length specimens.

The steam-driven Lidgerwood log skidder, operated by a three-man crew and built by the Meadow River Lumber Company in 1944, had been employed for some two decades, and facilitated log delivery from the cutting source to the actual railroad by means of an aerial cable.

Snoozing during its 15-minute interlude, the black Shay locomotive exhaled white streams of breath through its vertical piston nostrils, the high-pressure steam discharged from the cylinders itself eradicating its piston chambers of condensation. The restful state, however, was soon shattered by its subsequently released, atmosphere-piercing whistle, its sound waves reverberating off of the surrounding slopes and beckoning the passengers back to the cars for the continuing journey.

Re-boring its way through the deep, dense wood forest, whose foliage slowly moved by like a green mosaic within an arm's length of the windowless coaches, the train trundled over the culvert at Whittaker Run, the sharper curve of the old grade visible on the track's low side.

Clinging to Leatherbark Gorge, the rails briefly threaded their way through Austin Meadows, on whose slope farm fields once grew, and thence over Gobbler's Knob.

A skidder set, located on a 225-foot siding on the uphill side of the train at mile 5.4, had occupied the site between 1940 and 1941, its 3,000-foot cable transferring logs at a 500-foot height over the creek from the far mountainside.

Climbing a 5.4- to six-percent grade at mile 6.0, the string of cars passed an overlook whose view took in Leatherbark Creek Valley, located below the lower switchback and from which smoke, created by the 1200 Whittaker train, now rose. At the present elevation, spruce trees had become ubiquitous.

The logging spur leading to Camp 5, which had been hollowed in 1911, moved off the side at mile 6.2.
The tracks, forking a half-mile further into the journey, led to Old Spruce on the left and Bald Knob on the right, the former following the main line which connected with tracks destined for the Cheat and Elk River drainages at the abandoned mill town of Spruce. Located at a 3,940-foot elevation on the Shavers Fork of the Cheat River, the bark-peeling pulpwood mill- and railroad shop-equipped town was considered the "highest and coldest...in the east."

Arcing to the right of the two, the train entered the logging spur, and the last to have been laid by the Mower Lumber Company, so that it could access the highest-elevation timber. It served as the threshold to Bald Knob.

Operations, ceasing in 1960, never permitted use of the railroad grade located on the high side and destined for the head of Leatherbark Creek.

Arresting its travel on the eight-percent graded track at the Oats Creek water tank, the engine was intravenously-fed 4,000 gallons of the life-providing liquid by means of a steam-driven siphon and portable hose extending from an old mill boiler which continually collected creek water run-off. The 6,000-gallon tank, located directly over the engine's driver wheels, ensured both increased traction and greater rail adhesion.

Somehow emulating a polluting factory, the Shay locomotive once again released a black, vertical plume as it propelled the train over the seven-percent grade of Johnson Run, at mile 8.2, past the Snowshoe ski resort overlook, now entrenched in third-cut hemlock, ash, white pine, and red spruce tree sentinels.
The wye, at mile 9.1, had led to a one-mile-long spur off to the left which had been equipped with five skidder sets and a camp train between 1950 and 1951, but had since been reduced to a fraction of this length.

Clanking, lurching, swaying, and screaming with protests at every turn, and releasing its own periodic explosion of steam, the train moved round the Big Run watershed, at a 1.5-percent downgrade, the track having been laid from Shavers Fork in 1910 when skidding had still been accomplished by means of horse power.

Moving through the ten-mile marker, it traversed the logging road crossing, initiating its final, mile-long approach to the mountain's summit on a nine-percent grade. A small clearing indicated imminent arrival.
Passing the left-arcing logging railroad grade, the train ceased motion for a final time at mile 11.0 in the cooler, more rarefied air at 4,750-foot Bald Knob, the highest point reached east of the Rocky Mountains by a non-cog railroad and the third-highest in the state of West Virginia.

The billous black, 162-ton Shay locomotive, having voraciously consumed mini-mountains of coal and unquenchably gulped water by the thousand gallons, instantaneously ceased its persistent chug, belch, hiss, screech, clang, and shrill at 1320, leaving silence-and the breathtaking view of the gentle, dark green, blue, and gray, wave-resembling ridges rolling into one another almost 5,000 feet above the surface from the eastern edge of the Allegheny Highland, as viewed from the scenic overlook platform.

Eleven miles ahead lay the mountains marking the Virginia border, but only a few yards behind, cradled by the terminating track, was the Shay #6 locomotive, its coal tender, and its seven vacant cars. Its forest- and five sense-assaulting technology, although now crude and primitive, had been instrumental in West Virginia logging railroad history, once removing the raw, vitally-needed timber to build the country's towns and sustain their people, but today returned them to the mountain forest where they could witness its feats.
Enticed back to the train 40 minutes later for the 11-mile journey back to Cass, the passengers, numbering in the hundreds, owed it a silent salute.

The Cass Scenic Railroad
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PC250MTK 2.5-Amp
Oscillating Multi-Tool Kit
At a Glance:

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At a Glance
PC250MTK 2.5-amp oscillating multi-tool
The PC250MTK comes equipped with multiple blades, allowing you to work on a variety of projects (view larger).
PC250MTK 2.5-amp oscillating multi-tool
Porter-Cable's patent-pending Tool-Free System makes it easy to switch between accessories without bolts or wrenches (view larger).
Power and Precision
The PC250MTK runs on 120-volt electrical power and delivers 10,000–20,000 oscillations per minute (OPM) by way of a high-torque 2.5-amp motor that can handle almost any jobsite application. The variable-speed unit has an oscillation angle of 2.8 degrees and comes equipped with a 10-foot cord for easy jobsite maneuverability. The PC250MTK features a durable injection-molded kit box to help keep the tool and accessories organized and protected on and around the jobsite.

Tool-Free System
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PC250MTK 2.5-amp oscillating multi-toolPC250MTK 2.5-amp oscillating multi-toolPC250MTK 2.5-amp oscillating multi-tool
Porter-Cable's PC250MTK 2.5-amp oscillating multi-tool kit provides the tool and accessories to tackle a variety of tasks, including cutting, grinding, sanding, and scraping (click each to enlarge).


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Porter-Cable 390K 5-Inch Low Profile Random Orbit Sander Kit with Hook & Loop Pad and Dust Collection Feature

  • 3.5 Amp EnduraTech Motor for increased performance and durability
  • Electronic Load Control for 42% faster material removal
  • EnduraTech Motor Technology has 71% fewer wear components for 5-10 times longer motor life
  • Electronic motor brake reduces spin-down time by 73% for increased productivity; Mechanical pad brake reduces free-spin to virtually eliminate gouging
  • Integrated dust port accepts 1- and 1-1/2-inch vacuum hoses; includes kit box


Porter-Cable 390K 5-Inch Low Profile Random Orbit Sander Kit with Hook & Loop Pad and Dust Collection Overview

Efficient, thorough, and easy to control, the Porter-Cable 390K Low-Profile Random-Orbit Sander has a low center of gravity for the close to the work feel of an air sander with the convenience of a standard electrical plug. Its 3-1/2 amp ENDURATECH brushless motor ensures robust, time-saving performance on a variety of materials, including red oak, pine, and poplar. The sander also features integrated dust collection that keeps your workspace cleaner and healthier.

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390K Low-Profile
Random-Orbit Sander
At a Glance:
  • Low-profile sander with a low center of gravity for a 'close to the work' feel

  • Variable speed range of 7,000 to 12,000 rpm for optimal removal rate

  • Integrated dust collection for a cleaner workspace

  • Three-year warranty
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Black and Decker Porter-Cable 390K Low-Profile Random-Orbit Sander

Remove paint or sand wood to a fine finish with the orbit sander's variable speed range of 7,000 to 12,000 rpm. View larger.

Porter-Cable 390K Low-Profile Random-Orbit Sander

Rubber grip and ergonomic features provide comfort during extended jobs. View larger.
Robust Performance in a Compact Package
The 390K is a powerful, compact sander ready to take on a variety of heavy-duty jobs. It's ideal for aggressive sanding, coating removal, leveling seams, smoothing rough material, solid surface work, and boat-bottom cleanup.

ENDURATECH Motor for Improved Productivity and Durability
The 2008 winner of the WOOD Magazine Top Tool Award, the 390K boasts ENDURATECH brushless motor technology for 70 percent fewer wearable parts, which increases the motor life by up to 10 times when compared to traditional palm-grip sander motors. The result is greatly improved productivity, durability, and control.

Low-Profile Design for Optimum Control
The 390K sets a new standard for palm-grip sanders. Its low-profile design is 30 percent shorter than the competition. This means you'll get optimum control and finish, as well as comfortable handling on the job.

Variable Speed Range for Versatility and Precision
Versatile and powerful, this sander has a variable speed range of 7,000 to 12,000 rpm for optimal removal rate on a variety of materials. Electronic load-control monitors the rpm and maintains a constant operating speed for smooth sanding and over 40 percent faster material removal.

Innovative Brake Designs Save Time and Reduce Free-Spin
Also, the 390K saves you time with its innovative electronic motor brake, which reduces spin-down waiting from close to 10 seconds to approximately 3 seconds.A separate mechanical pad brake reduces free-spin--effectively putting an end to gouging, and a 3/32-inch orbit diameter means this sander can handle a range of materials with ease.

Compact, Ergonomic Design with Integrated Dust Port
The 390K measures 4 by 5 by 12 inches (W x H x D) and weighs just 2.1 pounds, so it's compact and easy to store. Its rubber grip and ergonomic features maintain user comfort, even during extended jobs.

For further convenience, an integrated dust port accepts 1-inch and 1-1/2-inch vacuum hoses for optimal dust collection. This makes your workspace cleaner and healthier and helps maintain good visibility of your workpiece.

Warranty Information
The 390K is backed by a three-year warranty.

What's in the Box
Random-orbit sander kit, 5-inch hook-and-loop pad with eight-hole pattern, rugged storage case, and user manual.






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Porter-Cable 390K 5-Inch Low Profile Random Orbit Sander Kit with Hook & Loop Pad and Dust Collection

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