Tell me if you've been in this situation:

1. You need to put holes in a very long workpiece using your drill press.

2. You find clamping the piece to the bed impractical or impossible.

3. You decide that rigging up proper-height outfeed support is too time-consuming.

4. You say "Screw it, I'll eyeball it with a hand drill."

5. Then you have to live with the off-plumb results.

To avoid this problem, French craftsman Boris Beaulant created this small-footprint contraption. Its height can quickly be adjusted in order to match whatever altitude you've set the drill press table at. "It can be adjusted from 10cm to 35cm, providing versatility," writes Beaulant.

"To avoid premature wear and increase the rigidity of the assembly, all pivots have been made with an aluminum sleeve through which the clamping screw passes."

What do you folks normally do/use in this situation?

Our company, Alcove Group, develops products to augment the way people work in today's digital economy. Our first product is a sleek laptop case that transforms into a mobile workstation to enhance privacy when working in open spaces.

We are team of designers, engineers, and business leaders who are driven to develop intuitive solutions for how people integrate work into their lifestyle.

Keeps sound in & helps you focus on daily tasks.

Dim lighting, no problem. Comes with a light for low lighting environments.

If you've ever been to the Javits Center in New York City, you know how colossal the convention center is. But have you seen every single inch of the space completely filled with exhibitors? We hadn't before, until we took a trip to NY Now last week. 

Let's just say, if the apocalypse suddenly occurred, everyone at NY Now would survive. The show was overwhelming, featuring everything from stationary to pocket knives to artisan chocolate. However, we did find some standout gems amongst the chaos. 

Inspired by mountain ranges and natural shapes, Landscape Organizer Boxes by danzo studio are stackable and designed to be interpreted based on your individual organizing needs.

Japanese company HEIAN SHINDO has been around since the 1950s, however their DRAW A LINE Collection is anything but outdated. The easy-to-place rods expand to fit most crevices, and their shelves are sturdier than expected. Designed for small apartment dwellers, the collection makes organizing small spaces simple, personal and attractive.

There are few pieces of furniture more visually pleasing than stacking chairs. Do to the emphasis on its angular curves when stacked, PLYCOLLECTION's ZESTY CHAIR happens to be supremely satisfying.

Brooklyn-based Pop Chart Lab designs endless amounts of charts, all with personal touches that make them easily function as art in the home. Pop Chart Lab recently delved into the ream of scratch-off charts, designing one for essential novels and another for essential films—scratch off the tiles on the chart as you scratch items off your must read/watch list.

After a wildly successful Kickstarter campaign, our friends at Native Union were showing off their clever ECLIPSE cable management system at NY Now. It was maybe just a coincidence the solar eclipse happened the day we attended the show...

Here's a fun one: ORINIGIRI is a paper origami kit designed to make forming rice balls easier and more exciting. Instead of traditionally forming the balls by hand, simply lay out some rice then fold into your desired shape along the creases. Architect Tomoo Nitta designed ORINIGIRI based on patterns he used when designing one of his buildings. He's noticed children in particular get a lot of joy from experimenting with the product and that it works well when used as a learning tool.

The water pipe-esque Cold Brew System by [ bi.du.haev ] is a minimal yet fancy way to brew your coffee at home. A striking alternative to more traditional home brew systems, this one is all glass, features a different take on ice management and looks damn good on display. 

Speaking of nice-looking home brew systems, the H.A.N.D Collection by TOAST Living is an elegant way to prepare your morning Joe. Everything from the mugs to the pour over coffee stand set would be worth displaying on a countertop.

Chilewich Editions by Chilewich is the company's mission to delve into specific product explorations, including those in the form of material and manufacturing techniques. Designed to be more art than commerce, the first series, Blocks, required printing multiple layers of color with extreme precision using a process the company hadn't tried before. 

Finally, we're digging Pantone's foray into lighting in partnership with e3light, Coll.One. The color company unveiled the collection at NY now, and we're looking forward to seeing more of it—it'll be available for purchase here starting in October.

See you next time, NY Now.

In this video, I address a question from a viewer about how to keep your saw cuts plumb, and demonstrate how to do it. Here are a few tips covered in the video:

- Treat the cut as two parts

- Pay attention to the reflection

- Don't forget that step back

- Commit to the cut and use the whole saw plate

- Start your cut on the push stroke

Sawing is probably the MOST important hand tool skill you can acquire and improve, so do yourself a favor and spend some time perfecting your technique and making yourself a better woodworker.

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This "Hand Tool School" series is provided courtesy of Shannon Rogers, a/k/a The Renaissance Woodworker. Rogers is founder of The Hand Tool School, which provides members with an online apprenticeship that teaches them how to use hand tools and to build furniture with traditional methods.

Here's a great example of a guy who turned his hobby into a business, and how not having enough money forced a creative decision that made the business take off.

In 1958, Pierre Koller was a Swiss 34-year-old that had grown up in Lausanne and Zurich. Fond of collecting horse carvings and old furniture, he opened an antique shop in Zurich to sell some of it off.

The following year a German clock collector offered to sell his timepiece collection to Koller—for 100,000 Swiss Francs. That was way more money than Koller had but, seeing an opportunity, he convinced the collector to agree to a consignment arrangement where Koller would auction the clocks off.

The auction is a success, and Koller Auctions is born. Today the company has offices in Zurich, Geneva, Milan, Moscow, Munich, New York and Beijing. I've been combing through their archives and found some pretty cool stuff:

16th-Century Multi-Tool

A richly decorated combination tool, Nuremberg, circa 1580. Iron with fine etched decoration in the form of flowers and foliage. The tool can be used as pliers, hammer, nail-puller or mini-anvil. L 21.5 cm.

Treadle-Powered Turning Lathe

A rare turning lathe with a numerous tools in 2 large and 3 small boxes, by the company Holzappfel, London, 1824. Mahogany, cast iron, brass and steel. Pedal driven.

Rare model, the workbench with cylinder closure. Various tools, blades and spare parts necessary for the turning work. With instruction in 5 volumes, TURNING AND MECHANICAL MANIPULATION, by Charles Holtzappfel.

In 1790, the Holzappfel family moved from Alsace to London, where - until 1810, in cooperation with the German Deverlein, and until 1930 alone - produced high-quality lathe sets for artistic woodworking. According to tradition, the lathe with No. 620 was sold to Percival H. Wormald in Gomersal, Yorkshire. It is one of only 3 workbenches with cylinder closure.

Chinese Rack of 13 Opium Pipes

13 fine opium pipes in various materials. China, 19th and 20th century, length max. 63.5 cm. Wood stand. Few damages and repairs.

The pipes consist of bamboo, bone, porcelain, cloisonné, varnish, brass, jade-green stone and amber imitating kustharz. The saddles are made of silver or bronze, driven into vegetal shapes, engraved or inscribed with inscriptions. The pipe fittings are usually made of ceramic, also from porcelain, sometimes in animal form, sometimes with Ritzdekor or in geometrical forms. Perforated wooden stand with brown and gold lacquer.

Mondrian 2 Cabinet

Koni Ochsner(1933 - 1995), cabinet model "Mondrian 2", designed in 1975/1976 for Röthlisberger. Polychrome lacquered wood and polished chrome. 82x36x162 cm. Traces of wear.

Cylindrical Drawers

Chest of drawers for a store, "Noa" model, La Chapelle, Kriens Lucerne, beginning of the 20th century. Beech, cylindrical, turnable two-part body on spherical feet. Upper part and lower part, each with 160 drawers. Different brass knobs. H 186 cm, D 85 cm. Restored.

Trepanning Set

An elegant trepanning set, France, possibly 19th c. Shaped and engraved, partly gilt steel. Consisting of a trepan with screw-handle showing Chronos, 7 drill bits, 3 elevators, 5 scrapers, etc. some instruments inscribed IOANNES GANTE. In walnut case with brass mounts lined with red suede (lid warped and cracked). 34.5x20.5x5.2 cm.

If you've got time to kill, you can dig through their stuff here.

We believe that technology should make life better for everyone, everywhere. This vision guides what we do and how we do it. In the 3D printing space, HP will reinvent the way people design and engineer with the intent of creating the next industrial revolution. Reinventing a world-class experience design for 3D printing is essential to achieving this exciting vision.

When designing performance footwear, sneaker companies like Nike and Adidas will always starts with the shape of the human foot. A keen understanding of its structure then leads its designers to add support and cushioning in the appropriate places. But when designing footwear less demanding in its needs—say, the house slippers folks wear in Japan and other cultures where outdoor shoes are a no-go in the house—there's a lot more latitude.

When it comes to modular, portable tool storage, it's hard to beat the Systainers designed by German company Tanos. They come in five sizes and can be linked together for easy transport. While Systainers can be purchased separately at places like Woodcraft, Tool Nut and Amazon, Festool products all come packaged in them (Tanos and Festool are sister companies).

Something Festool owners know, however, is that Systainers are not terribly space-efficient. Since each Festool-branded Systainer's vacuum-formed polystyrene insert is designed to hold just a single tool and its accessories, there is a lot of dead space in there. Thus a lot of folks will ditch the polystyrene and design their own custom insert, wringing usable space out of every last cubic inch. Here's an example by a member of the FOG (Festool Owner's Group) forum, screenname Howwe:

Here's another design that can swallow a lot of hand tools:

And here another FOG member, AnthonyZ, used a CNC mill to create an insert holding the precise tools that he needs to tote:

If you've got a Systainer and want to make your own inserts, it would be handy to have the interior dimensions of a Systainer. (The interior footprint is the same for all five sizes, only the heights are different.) To make it easy, we've rounded up some resources along these lines, thoughtfully provided by FOG members.

1. Download simple PDFs

If you don't want to mess around with CAD but just want the interior outlines (of both the floor and upper portion of a Systainer), which you can print out 1:1 and create a physical template off of, FOG member Tim Raleigh has provided them here:

Systainer Insert, Lower [PDF]

Systainer Insert, Upper [PDF]

2. Download SketchUp files

SketchUp users can snag these "accurate templates for creating your own systainer inserts from rigid materials such as MDF, plywood, or plastic," provided by Jonathan S., right here.

3. Download DWG files

If you want to create your own plans in the CAD program of your choice, FOG member JohnnyRoundBoy has provided a .zip file containing DWGs here.

4. Download Systainer drawings

Lastly, if you want SketchUp models of the actual Systainers (in all five sizes), Brice Burrell has provided "95% accurate" drawings here.

If you end up making a cool Systainer insert, please circle back and drop some photos in the comments; we'd love to see what you come up with.

This project involves animated lights, so is best viewed in video.

I made this LED pendant light from plywood, LED strips, and flexible LED channel. Since I designed this for my living room, the music syncing had to be incognito. With this in mind, I used warm white / cool white / amber LED strips, instead of RGB strips. In solid white mode, the rings give off various shades of white for a sophisticated modern look that hides the wild side when you switch the light to music visualizer mode.

Remember this incredibly effective demo that we showed you last year?

In just seconds and using no words, the presenter makes the viewer clearly understand how to, and how not to, distribute the weight on a towed trailer. 

Sadly, here's a real-life demonstration, without the hand to reach in and stop it:

"Dad and his two kids were ok," writes the trucker who posted the video. "Gives you a good idea of how long it takes to slow down a heavy laden truck going 65mph."

The Core77 team spends time combing through the news so you don't have to. Here's a weekly roundup of our favorite finds from the World Wide Web:

Solving how fish swim so well may help design underwater robots.

GM will break ground on a 360,000 sq ft expansion of their design center in 2018.

"What 500-year flooding could look like around five cities."

A wicked visualization of Citibike trips taken citywide.

Burning Man 2017 is in full swing_running from Aug 24 through Sep 4th. Dezeen showcases some Instagram photos. And here's the full feed of photos. Internet connectivity on site is sketchy. Expect more photos in the coming days.

Netflix and chilllllllll.

Interactive Robogami is a tool from MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL) that aims to let people design, simulate, and then build simple robots with a "3D print, then fold" approach.

Too far or not far enough?

Toppling monuments, a visual history.

A review of the Ettore Sottsass exhibit, currently on display at the Metropolitan Museum in NYC.

Exhibit Columbus is an annual exploration of architecture, art, design, and community featuring 18 outdoor, site-responsive installations as well as events and programming from Aug 26 through Nov 26. Takes place in Columbus, Indiana.

Things to buy. Things not to buy.

Understanding how hurricanes are CATegorized.

Hot Tip: Discover more blazin' hot Internet finds on our Twitter and Instagram pages.

"Steel Bark" Walnut Slab

Jimmy DiResta comes up with an inventive way to get this walnut slab lined with "steel bark:"

How to Build a Workbench Out of Plywood

Chris Salomone DIYs a simple torsion-box-style workbench:

Circular Saw Tricks

Izzy Swan shows a couple of very unexpected ways to use a circular saw:

Table Saw Vibration Dampening

Matthias Wandel rigs up some surprising (and ultimately, effective) contraptions to dampen the vibration on his old contractor's saw:

DIY - Folding Table for Two

Izzy designs a builds a two-seater variant of his famous folding table with built-in seating:

Modern Nightstand

Linn from Darbin Orvar builds a concrete-topped nightstand out of walnut-veneered plywood:

Interact is a Boulder-based strategic branding and packaging design agency focused on the food and beverage industry. We partner with spirited food and beverage brands to sell passion, not just product, by crafting insights from consumer behavior, industry innovation and company culture. We hang out with a diverse client roster from bright-eyed startups to courageous industry vets.

Artist Cam Bergerman counts archery and leatherworking among his hobbies. Having learned how to craft leather handle wraps the traditional way, with stitching, he decided to experiment a bit:

I had an idea a while back for a way to join a seam in leather without anything but the leather itself. The idea is similar to a zipper. I finally got a chance to try it out on a handle wrap, and was quite happy with how it ended up.

From experimenting on some scrap, I found that the hole diameter has to be slightly larger than (edit) the distance between the holes.

Notice in the pic below, I did not cut out toward the edge on the top and bottom holes along the left side. This keeps it from "unzipping" when it's put together.

You may need some pliers to pull the first and last tabs through the holes, since they are not cut open like the rest.

Once it's started, just alternate tucking the tabs under each other. When you get to the end you might have to use pliers again. You want the first and last tabs to be as wide as you can possibly fit through the holes, since they are basically what hold the whole thing together.

You can tool and/or stain the leather how ever you like. This wrap was a nice snug fit, so I had to use some saddle soap to lube it up enough to slide it onto the widest part of the bow's grip.

There are several variables that you have to take into account, including the size of the holes that you punch, the thickness of the leather you are using, and how much of a "tab" you leave underneath the joint. You could figure the size out by trial and error, or if you are an engineer you could do some complicated math, but this is how I figured it out. I had a couple scrap pieces that I had used to test the idea. I "zipped" them up, taped them tightly around where the grip would end up being, and then unzipped the leather from the front. Then it was just a matter of measuring to get the correct width. As far as the length, just match it to your handle.

Nice work, Bergerman!

A group of students at MIT Media Lab's Tangible Media Group has created a new design and fabrication system that they call Printflatables. Their system can produce "human-scale, functional and dynamic inflatable objects." If that doesn't sound exciting, well, take a look at some of the potential applications:

We use inextensible thermoplastic fabric as the raw material with the key principle of introducing folds and thermal sealing.

Upon inflation, the sealed object takes the expected three dimen- sional shape.

The workflow begins with the user specifying an intended 3D model which is decomposed to two dimensional fabrication geometry. This forms the input for a numerically controlled thermal contact iron that seals layers of thermoplastic fabric.

I for one am eager to see more of those human-power-augmenting applications. I'd love to see some designs that could help the arthritic and/or disabled.

In the VynEL Add Light. Anywhere. project, we aim to show how to add integrated light to any material. In this project, we show the various steps to bond a lighting element called VynEL to a garment, which can be used for safety, entertainment, athletics, camping and more.

The Household Hacker got his hands on a 1957 publication called "1,001 How-to Ideas," i.e. hacks. He then picked out 16 of them and demonstrated them on video to see if they'd still be useful today.

As with all "life hacks" roundups, a couple of these are just dumb, but several appear useful. I was impressed by the impromptu flashlight base and the steel wool refilling trick. I was also tickled to see that bacon packaging technology has not improved at all in 60 years, and the bacon-centric one is something I look forward to trying.

David Rockwell is one of America's most acclaimed interior designers. His firm, Rockwell Group, has designed large-scale immersive environments for hotels and restaurants around the world, not to mention its sets for the Academy Awards and several Broadway musicals. But Rockwell's latest project is one of his smallest yet, and not something typically associated with high-end hospitality—a grill.

You've worked for months to get your prototype functioning. It's time to take that ugly (but functional!) works-like prototype and create a real consumer product. Right now, you may be focused on the general shape, smoothing out the curves and accommodating the awkward PCB shape (darn those electrical engineers!), but soon you'll feel the need for control—controls, that is, and buttons that look better than the DigiKey panel mount you've been using.

Intro to Button Design

(For toggle design, you'll want to go down the hall to Mrs. Wilkes' sewing class.)

As always, first things first: How will this be used? Where is it on the machine? Will the user be pressing the button with their thumb or finger?

And what about the indicated use: Is this a simple "press and do" button, or does it indicate an up-down level, like volume?

Buttons are a chance for both comfortable ergonomics and increased intuition in your product design. Large buttons surrounded by smaller ones indicate relative importance. A volume rocker button indicates a level going up and down. A single big red button says, "PANIC."

Buttons communicate function in ways that transcend language

On a (literally) deeper level, you'll need to think about the interior of the case, too. Your button may look pretty on the outside, but on the inside, you'll need to align it with the PCB-mounted or panel-mounted electronic switch (being sure to check tolerances) and think about depth of throw and potential force. And then there's the internal wiring—be careful that the wires are out of the way inside.

So much to think about! Let's dive right in.

Integrating Springs: Cantilever Design

For most external buttons, the design will call for some type of mechanical spring to augment the one on the electronics component, and one of the most common ways to do this is with a plastic cantilever. The cantilever spring is a small finger of plastic that extends from the main body, flexing with each press, and pulling the button back to its rest position afterwards. There are two things to consider in cantilever design: strength and fatigue.

This is (roughly) what the drawings should look like:

In designing a cantilever button spring, first determine the depth of "throw"—that is, how much flex you'll need from the button.

That press depth becomes the desired maximum deflection, d. How hard the user presses is the required force, F. Look up your material properties to determine the modulus of elasticity, E.

With these factors determined, you can play with the other geometry as required for the length (L), width (or base, b), and thickness (or height, h), to balance out this equation:

(rectangular cross-section only)

To do this a bit faster, download our cantilever button spring design calculator here.

Overall, longer is better to reduce fatigue, the second part of the design to check. You don't want a single-use button, and if your plastic cantilever-beam-cum-spring is bent too far, it's going to snap more quickly than an office worker with a red Swingline stapler. You may remember from your Strength of Materials 101 class that the stress on a cantilever beam is highest at the origin, or in this case, where the material thickens stepwise.

The stress (??) at a cantilever beam origin can be calculated as:

Maximum stress for your material will tell you how far it can go before breaking, but for a spring like this, it's important to stay well below that in the elastic region of the stress-strain diagram. This will vary widely from material to material, but as a general rule, you'll want to ensure that your maximum stress is no more than 20 MPa for the toughest printed materials.

Because a printed spring like this requires high elasticity, the best materials for this kind of design are ABS, ABS-like and Nylon (see below for more information on each material).

Download our cantilever button spring design calculator here.

Mounting and Alternative Springs

Buttons with integrated springs can either be mounted with a sliding mount, where the button is suspended between the two springs in the case, and the springs slide against their mounts, or by fixing the end of the cantilever to the housing with screws or heat stakes. Of course, when prototyping with 3D printing, you have options you won't have with an injection molded design—essentially, any shape can be made without worrying about molding angles—so you can actually have the button printed as part of the case. Printing magic, baby!

A cantilever-spring button mounted with a screw mount; image from our Neato robotic vacuum teardown

As an alternative to these unified designs, a rubber backing piece can be used as a spring. Typically, this is used in places where the plastic springs are impractical, due to button spacing, or when a large number of buttons is in a pad, like on a remote control.

A sheet with a series of rounded bumps can be printed, using the rubber-like material, and used as a backing spring for an entire control panel of buttons, freeing the shapes of the buttons from any required spring mounts.

Rubber backing provides another spring material; image from our Nintendo controller teardown

Of course, in looking for springs, a regular coil spring can be used beneath the button. This is ideal for situations with very deep press, such as a blender control panel. Long or deep-throw buttons like this indicate very deliberate action and keep the user from accidentally activating the switch.

Compression coil springs found underneath push buttons; image from our Logitech gameboard teardown

Types of Buttons and Sample Designs

Volume Rocker

Great for volume buttons (or any level that increases and decreases in opposition), this two-point button is a standard for most tablets and phones. Using a two-cantilever sliding design allows for each cantilever to act as a fulcrum, while the other side acts as a spring.

Two-point rocking buttons are a standard on phone designs; image from our Kindle Fire teardown

Directional Pads

A staple of video game controls, the D-pad also commonly shows up in TV remotes and other consumer electronics. It clearly contrasts two different dimensions, keeping users from trying to move a character up-left and back-right simultaneously, or a channel higher and lower at the same time (unless two siblings are fighting between "Game of Thrones" and "The Walking Dead". May we never face such a dilemma.).

The best design for this situation is a more complicated variation of the sliding cantilever, with a single plastic spring extending from each pad into a sliding mount. Alternatively, with a slightly softer feel, a rubber pad can be placed under all four with similar effect.

Directional pads incorporate multi-dimensional duality into the design

Panel Switch

When you really have to use the off-the-shelf part, I suggest hiding a panel mount switch in a recessed area of the electronics enclosure, to retain a sleek, consumer-oriented feel.

Panel-mounts can be used, but be careful of the wire routing; image from our hoverboard teardown

Thumb Buttons

In places where the hand is fixed in relation to the device, like in an ergonomic mouse, a thumb button will often take more of a beating with hard stress presses. The thumb button is an opportunity for better ergonomics, recessing the button into a thumb-shaped indentation and providing a larger button area. Mechanically, the strength of a screw-mounted cantilever gives the solidity this type of button requires, and multiple attachment points can be used for a more solid press.

The logitech gaming mouse (full product teardown here) has a side thumb button for specialized ergonomics.

Triggers

Another game controller standard, the trigger button should be easily felt and have a long throw. This unusual button is often hidden away out of sight, so it needs to be simple to identify by touch. The long throw can be accomplished with a rotating mount and either a torsion spring or coil spring for return.

Triggers can mount on a hinge for a long throw; image from our Nintendo controller teardown

Aesthetics of Design

Buttons are often, well, button-shaped, like their clothes-fastening cousins. Explore further, and use the control as an opportunity for an exclamation point in the design. Try using a contrasting color for the button: a bright silver in an otherwise black enclosure, or bright green in an orange case. Experiment!

More unusually, you can also use the button as a window into the design with translucent materials. This can allow the buttons to glow, for easy use of the device in the dark (like a light pipe), or it can simply allow some of the electronics to be seen in designs showing off their technical aspects. Try the transparent material for prototyping and an acrylic or polycarbonate in production.

Figure 12: A translucent button can be backlit to add some excitement to the case design; image from our Roomba teardown

Prototyping Your Design

For incorporated springs, there are three strong material options for prototyping: ABS, Nylon, and ABS-like.

ABS is actual ABS material, but extruded into thin threads, then printed in fused layers. Because the tightest resolution is the thickness of these thin threads, the material is somewhat coarse, and is best for thicker cantilever springs.

Nylon is somewhat finer, and is suitable for medium thickness springs.

ABS-like is the best choice for any cantilever spring, but more expensive, and so is best saved for late-stage prototypes where a more polished appearance is valued.

Figure 13: Beautiful, ultrafine resolution pieces in Polyjet ABS-like material

When testing, keep in mind that materials behave differently when a different manufacturing process is used, such as fused deposition modeling (FDM) or selective laser sintering (SLS). A 3D-printed spring won't have quite the toughness of your final design, so it can't be used for fatigue limit testing.

The elasticity and strength will vary, as well, so be sure to look at the material data sheets. However, as a first approximation, the printed buttons and mounts are ideal. Also, if you compare the modulus of elasticity of the printed material to your final manufactured material, you can use that to scale the equations above and determine how much force will be needed for your final button to activate.

Final Thoughts

At the triple intersection between aesthetics, ergonomics and functionality, button controls provide an amazing opportunity to creatively showcase great industrial design. Take the opportunity in your next product design to experiment with unusual shapes, colors, and even textures.

Industrial design is about interaction, the relationship between human and machine, and for many products, that interaction is most intimate where the user reaches out to touch the design: the buttons.

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This post is provided by Fictiv, the most efficient manufacturing platform for fabricating parts. Powered by a distributed network of highly vetted vendors, the online interface makes it easy for customers to get instant quotes, review manufacturing feedback, and manage orders—all through a single service.

About Fashion Institute of Technology: The Fashion Institute of Technology (FIT), an internationally renowned college of art and design, business and technology, of the State University of New York, invites nominations and applications for a part time Technology Associate in the Gladys Marcus Library at FIT. Function as an integral member of the library technology services unit to provide maintenance, support and troubleshooting for all Library technology. Provide user support for Library faculty, staff, students and visitors. Provide technical support for PrintFX, Fab Lab, FIT Global and FIT Digital Image Library (FITDIL) and associated equipment and software.