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The Displacement Exercise (DEX)

DEX is a small materials testing machine that should be capable of running tensile and compressive tests at up to 600N of force.

dex dex

Operating Principle

A stress - strain plot is a very useful piece of information when characterizing materials.

ss curve

To generate these curves, the DEX slowly pulls samples (normally some 'dogbone' shape below) apart, while measuring the amount that it stretches (~ the strain), and the amount of force it exerts as it is stretched (~ the stress). These types of machine are common in industry, commonly referred to by their leading brand name 'Instron', or as 'Universal Testing Machines'.

Hardware

The DEX is an open-source piece of materials testing equipment. The machine can be manufactured by anyone with access to a laser cutter with at least a 24x12" bed, and nearly any FDM 3D Printer. A bill of materials of purchased parts required to complete the machine is below, totaling some ~ $500 USD.

The machine is made largely from laser cut delrin and 3D printed (commodity FDM) parts.

More detailed documentation will follow.

CAD

CAD for the machine is available in this Repo, under cad/fusion - the .f3z file is a Fusion 360 parametric model of the machine. To source parts, consult the BOM below.

dex

BOM

Part numbers are from McMaster Carr unless otherwise linked.

Part Spec Count Notes PN / Link Cost / Per
Delrin (Acetal) Cast Sheet 24x12", 0.25" Thick 2 Fits on 24x18" w/ no mistakes 8573K35 $50.49 / 1
PLA 'Tough' ~ 300g Many 3DP Mechanical Bits Matter Hackers M6E9T65K $52.00 / 1kg
625ZZ Bearings 5x16x5 24 - VXB 625ZZ $24.95 / 20
Bearing Shims 5x10x0.5 37 - 98055A098 $8.62 / 50
Carriage Shoulders M4x5x6 12 - 92981A146 $2.16 / 1
Reduction Shoulder M4x5x10 1 - 92981A030 $2.32 / 1
Idler Shoulders M4x5x20 5 - 92981A042 $2.33 / 1
NEMA 23 Stepper Motor > 56mm Can Length 1 Spec Shaft with Pinion Stepper Online $14.83 / 1
GT2 Pinion 20T 1 Spec Shaft with NEMA 23 Amazon (or) RobotDigg $9.96 / 5
GT2 Closed Loop Belt 280T, 6mm Wide 1 - Amazon (or) RobotDigg $15.88 / 10
GT3 Open Loop Belt ~ 1m, 9mm Wide 1 - Amazon (or) RobotDigg $15.00 / 1
6806 Bearing 30x42x7mm 2 x 6806-2RS VXB $12.95 / 1
M3 Inserts Tapered, 3.8mm Tall ~ 300 - 94180A331 $12.92 / 100
M4 Inserts Tapered, 4.7mm Tall 16 - 94180A351 $14.96 / 100
M5 Inserts Tapered, 6.7mm Tall 4 - 94180A361 $12.00 / 50
M3 Washers 18-8 Standard Flat 300 - 93475A210 $1.62 / 100
SHCS M3x16 100 Pinning T- to the wall, and pulley endmatter 91292A115 $5.87 / 100
SHCS M3x20 100 Pinning T- to one another (?) 91292A123 $6.78 / 100
SHCS M3x25 100 Pinning T- and X-es together 91292A020 $7.23 / 100
SHCS M3x45 8 Pinning the 'squat' together 91292A025 $12.21 / 50
FHCS M3x10 30 Pinning blisters to faces 92125A130 $5.81 / 100
FHCS M3x25 (?) - 92125A138 $11.50 / 100
Steel Dowel Pins 5x8mm 10 - 91585A506 $8.40 / 25
Feet M4 Stud, 15x15mm - - 93115K881 $1.78 / 1
Approximate Mechanical Total $446.80
Loadcell(s) 10, 30, or 50kg 1 Choose Range for Sensitivity Amazon 50kg Amazon 30kg Amazon 10kg $39.00 / 1
Loadcell Amplifier HX711 1 - Sparkfun 13879 $9.95 / 1
Power Supply 350W 24V LRS-350-24 1 - Amazon $32.25 / 1
Rough Control Total: Incomplete 81.20
All Up $528.00

PRINTED PARTS

Comment.

Part Spec Count Notes Picture
Blister Mirror - 3 M3 inserts
Blister - 3 M3 inserts
Edge Idler - 3 -
Edge Idler Mirror - 3 -
Pulley - 3 -
Matter - 2 -
Matter Insert - 2 -
Pincer Head - 10? -
Pincer Shaft - 10? -
Heart Rear Set - 3 -
Heart Front Set - 3 -
Heart Drive Reduce - 3 -
Heart Drive Pinon - 3 -
Heart Drive Cap - 3 -
Squat - 2 -
Stray Idler - 1 -
Stray Idler Mirror - 1 -

Control and Interface

DEX runs a squidworks controller. The dex branches of cuttlefish and ponyo contain code that is known to work with the machine. Again, more documentation for these controllers is coming, for now - consult the repositories.

c1 c2

Comparison to Instron 4411

To see how we do against a real instron, I tested identical samples on the DEX as well as on an Instron '4411' with a 5kN load cell. In the plot below (I'm using cuttlefish to plot the .csv that I saved from Bluehill, the Instron software), the leftmost plot is taken on the 4411, and the lazier slope belongs to the DEX.

While the samples fail around the same load, the difference in elongation is ~ 1.5mm wide: this is almost surely the machine's own deflection, stretch in the belts, etc.

dex-compare

This obviously warrants correction. One way to do this is to build a stiffer machine, however, we will be chasing up the cost and complexity if we do this. Rather, we should throw some more control at it. To start, we can circle back to our attempts at subpixel tracking, or attach a small linear stage directly to our fixturing elements. For this, I am imagining something like the AMS5311, which should do some 12 bits inside of a 2mm throw (for 0.4um resolution). Either can be added to existing systems, given network controllers / modular browser code. Since I want to integrate it elsewhere, it's likely that the camera option comes first.

Testing Notes

The D683 ASTM Dogbones:

dogbones

Roadmap

2019-10-17

One complete DEX exists in the MIT CBA shop, and has been validated against an Instron 4411. Current efforts are twofold:

(1) Working with the materiom project (whose mission: to provide open data on how to develop bio-inspired materials for a circular economy), and the fablab at cic, we are replicating the current design outside of the CBA shop, and building documentation while we do.

(2) To improve the machine's test accuracy, we are integrating CV processing into the control architecture, to use subpixel tracking. Further controller improvements from the squidworks project will also bring rate control on-board.

Notes

- Where to build logs go? This repo -> gitlab, mtm.cba, etc.
- Future integration of Temperature and Humidity Sensors
- Higher quality integration of load-cell amplifier
- Developing control for Cyclic Loading, Fatigue, etc.
- Developing direct upload / websocket-to-database tools
- Dec. 5: controllers -> CIC and London
- Cuttlefish: manipulation, understanding, computing on test datasets in the browser.

TODO

- encapsulate branches for ponyo, cuttlefish.
- bs ?
- put rpi setup back on desk with dex, branch, close
- revisit with cameras, rate control