Materials Data Sheet

Materials

Data Sheet

Photopolymer Resin for

Form 1+ and Form 2

Prepared 09 . 18 . 2018

Rev 06 01 . 22 . 2019

STANDARD RESINS

CLEAR FLGPCL04 | WHITE FLGPWH04 | GREY FLGPGR04 | BLACK FLGPBK04 | COLOR BASE FLGPCB01

METRIC

IMPERIAL

METHOD

Green Post-Cured

Tensile Properties

Ultimate Tensile Strength

38 MPa 65 MPa 5510 psi 9380 psi ASTM D 638-10

Tensile Modulus

1.6 GPa 2.8 GPa 234 ksi 402 ksi ASTM D 638-10

Elongation at Break

12 % 6 % 12 % 6 % ASTM D 638-10

Flexural Properties

Flexural Modulus

1.3 GPa 2.2 GPa 181 ksi 0.5 ksi ASTM C 790-10

Impact Properties

Notched IZOD

16 J/m 25 J/m 0.3 ft-lbf/in 0.46 ft-lbf/in ASTM D 256-10

Thermal Properties

Heat Deﬂection Temp. @ 1.8 MPa

42.7 °C 58.4 °C 108.9 °F 137.1 °F ASTM D 648-07

Heat Deﬂection Temp. @ 0.45 MPa

49.7 °C 73.1 °C 121.5 °F 163.6 °F ASTM D 648-07

GREY PRO RESIN

FLPRGR01

METRIC

IMPERIAL

METHOD

Green Post-Cured

Tensile Properties

Ultimate Tensile Strength 33 MPa 61 MPa 5076 psi 8876 psi ASTM D 638-14

Tensile Modulus 1.4 GPa 2.6 GPa 203 ksi 377 ksi ASTM D 638-14

Elongation at Break 33 % 13 % 33 % 13 % ASTM D 638-14

Flexural Properties

Flexural Stress at 5% Strain 39 MPa 86 MPa 5598 psi 12400 psi ASTM D 790-15

Flexural Modulus 0.9 GPa 2.2 GPa 136 ksi 319 ksi ASTM D 790-15

Impact Properties

Notched IZOD not tested 18.7 J/m not tested 0.351 ft-lbf/in ASTM D256-10

Thermal Properties

Heat Deﬂection Temp. @ 1.8 MPa not tested 62.4 °C not tested 144.3 °F ASTM D 648-16

Heat Deﬂection Temp. @ 0.45 MPa not tested 77.5 °C not tested 171.5 °F ASTM D 648-16

Coecient of Thermal Expansion

(-30 to 30° C)

not tested 78.5 µm/m/°C not tested 43.4 µin/in/°F ASTM E 831-13

RIGID RESIN

FLRGWH01

METRIC

IMPERIAL

METHOD

Green Post-Cured

Tensile Properties

Ultimate Tensile Strength 40 MPa 75 MPa 5801 psi 10907 psi ASTM D 638-14

Tensile Modulus 2.2 GPa 4.1 GPa 319 ksi 594 ksi ASTM D 638-14

Elongation at Break 13.3 % 5.6 % 13.3 % 5.6 % ASTM D 638-14

Flexural Properties

Flexural Stress at 5% Strain 49 MPa 121 MPa 7135 psi 17593 psi ASTM D 790-15

Flexural Modulus 1.4 GPa 3.7 GPa 198 ksi 537 ksi ASTM D 790-15

Impact Properties

Notched IZOD not tested 18.8 J/m not tested 0.37 ft-lbf/in ASTM D256-10

Thermal Properties

Heat Deﬂection Temp. @ 1.8 MPa not tested 74 °C not tested 165.2 °F ASTM D 648-16

Heat Deﬂection Temp. @ 0.45 MPa not tested 88 °C not tested 190.4 °F ASTM D 648-16

Coecient of Thermal Expansion

(-30 to 30° C)

not tested 53 µm/m/°C not tested 29.5 µin/in/°F ASTM E 831-13

TOUGH RESIN

FLTOTL05

METRIC

IMPERIAL

METHOD

Green Post-Cured

Tensile Properties

Ultimate Tensile Strength

34.7 MPa 55.7 MPa 5040 psi 8080 psi ASTM D 638-14

Tensile Modulus

1.7 GPa 2.7 GPa 239 ksi 387 ksi ASTM D 638-14

Elongation at Break

42 % 24 % 42 % 24 % ASTM D 638-14

Flexural Properties

Flexural Stress at 5% Strain

20.8 MPa 60.6 MPa 3020 psi 8790 psi ASTM D 790-15

Flexural Modulus

0.6 GPa 1.6 GPa 90.3 ksi 241 ksi ASTM D 790-15

Impact Properties

Notched IZOD

33 J/m 38 J/m 0.61 ft-lbf/in 0.71 ft-lbf/in ASTM D256-10

Thermal Properties

Heat Deﬂection Temp. @ 1.8 MPa

32.8 °C 45.9 °C 91.1 °F 114.6 °F ASTM D 648-16

Heat Deﬂection Temp. @ 0.45 MPa

40.4 °C 48.5 °C 104.7 °F 119.3 °F ASTM D 648-16

Coecient of Thermal Expansion

(23 – 50 °C)

159.7 µm/m/°C 119.4 µm/m/°C 88.7 µin/in/°F 66.3 µin/in/°F ASTM E 831-13

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data was obtained from green parts,

printed using Form 2, 100 µm, Tough

settings, washed and air dried without

post cure.

Data was obtained from parts printed

using Form 2, 100 µm, Tough settings,

and post-cured with 2.5 mW/cm² of

405 nm LED light for 120 minutes at 60 °C.

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data was obtained from green parts,

printed using Form 2, 100 µm, Rigid

settings, washed and air dried without

post cure.

Data was obtained from parts printed

using Form 2, 100 µm, Rigid settings,

and post-cured with a Form Cure for

120 minutes at 80 °C.

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data was obtained from green parts,

printed using Form 2, 100 µm, Clear

settings, washed and air dried without

post cure.

Data was obtained from parts printed

using Form 2, 100 µm, Clear settings,

and post-cured with 1.25 mW/cm² of

405 nm LED light for 60 minutes at 60 °C.

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data was obtained from green parts,

printed using Form 2, 100 µm, Grey Pro

settings, washed and air dried without

post cure.

Data was obtained from parts printed

using Form 2, 100 µm, Grey Pro settings,

and post-cured with a Form Cure for 120

minutes at 80 °C.

DURABLE RESIN

FLDUCL02

METRIC

IMPERIAL

METHOD

Green Post-Cured

Tensile Properties

Ultimate Tensile Strength 18.6 MPa 31.8 MPa 2.7 ksi 4.6 ksi ASTM D 638-10

Tensile Modulus 0.45 GPa 1.26 GPa 65.7 ksi 183 ksi ASTM D 638-10

Elongation at Break 67 % 49 % 67 % 49 % ASTM D 638-10

Flexural Properties

Flexural Stress at 5% Strain 4.1 MPa 27.2 MPa 0.59 ksi 3.95 ksi ASTM D 790-10, Procedure A

Flexural Modulus 0.16 GPa 0.82 GPa 23.4 ksi 119 ksi ASTM D 790-10, Procedure A

Impact Properties

Notched IZOD 130.8 J/m 109 J/m 2.46 ft-lbf/in 2.05 ft-lbf/in ASTM D 256-10, Test Method A

Thermal Properties

Heat Deﬂection Temp. @ 0.45 MPa < 30 °C 43.3 °C < 86 °F 110 °F ASTM D 648-07, Method B

Coecient of Thermal Expansion

(23 to 50° C)

117.0 µm/m/°C 145.1 µm/m/°C 65.0 µin/in/°F 80.6 µin/in/°F ASTM E831-14

FLEXIBLE RESIN

FLFLGR02

METRIC

IMPERIAL

METHOD

Green Post-Cured

Mechanical Properties

Ultimate Tensile Strength

3.3 - 3.4 MPa 7.7 - 8.5 MPa 483 - 494 psi 1100 - 1230 psi ASTM D 412-06 (A)

Elongation at Break

60 % 75 - 85 % 60 % 75 - 85 % ASTM D 412-06 (A)

Compression Set

0.40 % 0.40 % 0.40 % 0.40 % ASTM D 395-03 (B)

Tear Strength

9.5 - 9.6 kN/m

13.3 - 14.1

kN/m

54 - 55 lbf/in 76 - 80 lbf/in ASTM D 624-00

Shore Hardness

70 - 75 A 80 - 85 A 70 - 75 A 80 - 85 A ASTM 2240

Thermal Properties

Vicat Softening Point

231 °C 230 °C 448 °F 446 °F ASTM D 1525-09

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data was obtained from green parts,

printed using Form 2, 100 µm, Durable

settings, washed and air dried without

post cure.

Data was obtained from parts printed

using Form 2, 100 µm, Durable settings,

and post-cured with 2.5 mW/cm² of

405 nm LED light for 120 minutes at 60 °C.

 Material properties can vary with part

geometry, print orientation, print settings

and temperature.

 Data was obtained from parts printed using

Form 2, 100 µm, Flexible settings, and

post-cured with 80.5 mW/cm2 of 365 nm

ﬂuorescent light for 60 minutes.

 Tensile testing was performed after 3+ hours

at 23 °C, using a Die C dumbbell and 20 in/

min cross head speed.

Compression testing was performed at 23 °C

after aging at 23 °C for 22 hours.

 Tear testing was performed after 3+ hours

at 23 °C, using a Die C tear specimen and a

20 in/min cross head speed.

 Thermal testing was performed after 40+

hours with a 10 N loading at 50 °C/hour.

Cracks formed in samples during testing.

ELASTIC RESIN

FLELCL01

METRIC

IMPERIAL

METHOD

Green Post-Cured

Mechanical Properties

Ultimate Tensile Strength  1.61 MPa 3.23 MPa 234 psi 468 psi ASTM D 412-06 (A)

Stress at 50% Elongation .92 MPa .94 MPa 133 psi 136 psi ASTM D 412-06 (A)

Stress at 100% Elongation 1.54 MPa 1.59 MPa 223 psi 231 psi ASTM D 412-06 (A)

Elongation at Break  100% 160% 100% 160% ASTM D 412-06 (A)

Compression set at 23 °C for 22 hrs 2% 2% 2% 2% ASTM D 395-03 (B)

Compression set at 70 °C for 22 hrs 3% 9% 3% 9% ASTM D 395-03 (B)

Tear strength  8.9 kN/m 19.1 kN/m 51 lbf/in 109 lbf/in ASTM D 624-00

Shore hardness 40A 50A 40A 50A ASTM 2240

Material properties can vary with

part geometry, print orientation,

print settings and temperature.

Data was obtained from parts

printed using Form 2, 100 µm,

Elastic settings, washed in

Form Wash for 20 minutes and

postcured with Form Cure at 60 °C

for 20 minutes.

Tensile testing was performed

after 3+ hours at 23 °C, using a

Die C dumbbell and 20 in/min

cross head speed.

Tear testing was performed after

3+ hours at 23 °C, using a Die C

tear specimen and a 20 in/min

cross head speed.

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data was obtained from green parts, printed using

Form 2, 100 µm, High Temp settings, washed for

5 minutes in Form Wash and air dried without

post cure.

Data was obtained from parts printed using a

Form 2, 100 µm, High Temp settings, and post-

cured with Form Cure at 60 °C for 60 minutes.

Data was obtained from parts printed using

a Form 2, 100 micron, High Temp settings,

and post-cured with Form Cure at 80 °C for

120 minutes plus an additional thermal cure

in a lab oven at 160 °C for 180 minutes.

HIGH TEMP

FLHTAM02

METRIC

IMPERIAL

METHOD

Green Post-Cured

Post-Cured +

Additional Thermal Cure

Green Post-Cured

Post-Cured +

Additional Thermal Cure

Mechanical Properties

Ultimate Tensile Strength

20.9 MPa 58.3 MPa 48.7 MPa 3031 psi 8456 psi 7063 psi ASTM D 638-14

Elongation at Break

14 % 3.3 % 2.3 % 14% 3.3% 2.3% ASTM D 638-14

Tensile Modulus

0.75 GPa 2.8 GPa 2.8 GPa 109 ksi 399 ksi 406 ksi ASTM D 638-14

Flexural Properties

Flexural Strength at Break

24.1 MPa 94.5 MPa 97.2 MPa 3495 psi 13706 psi 14097 ksi ASTM D 790-15

Flexural Modulus

0.7 GPa 2.6 GPa 2.8 GPa 100 ksi 400 ksi 406 ksi ASTM D 790-15

Impact Properties

Notched IZOD

32.8 J/m 18.2 J/m 16.9 J/m 0.61 ft-lbf/in 0.34 ft-lbf/in 0.32 ft-ibf/in ASTM D 256-10

Thermal Properties

Thermal Expansion (0-150 °C)

118.1 µm/m/ °C 79.6 µm/m/ °C 74.5 µm/m/ °C 41.4 µin/in/ °F 44.2 µin/in/ °F 41.4 µin/in/ °F ASTM E 831-13

Heat Deﬂection Temp. @ 0.45 MPa

49 °C 120 °C 238 °C 120 °F 248 °F 460 °F ASTM D 648-16

Heat Deﬂection Temp. @ 1.8 MPa

44 °C 78 °C 101 °C 111 °F 172 °F 214 °F ASTM D 648-16

CASTABLE WAX RESIN

FLCWPU01

METRIC IMPERIAL METHOD

Tensile Properties 

Ultimate Tensile Strength

11.6 MPa 1680 psi ASTM D 638-10

Tensile Modulus

220 MPa 32 ksi ASTM D 638-10

Elongation at Break

13 % 13 % ASTM D 638-10

Burnout Properties 

Temp @ 5% Mass Loss

249 °C 480 °F ASTM E 1131

Ash content (TGA)

0.0- 0.1% 0.0- 0.1% ASTM E 1131

 Material properties can vary with part geometry,

print orientation, print settings, and temperature.

Data was obtained from parts printed using Form 2, Castable

50 µm Fine Detail settings and washed without post-cure.

The Standard Burnout Schedule is designed to provide the maximum possible investment strength and complete burnout

of the ﬁnest details using R&R Plasticast or similar investment materials. Use this schedule as a starting point and make

adjustments as needed.

PHASE TIME SCHEDULE °C SCHEDULE °F

Insert Flasks 0 min 150 °C 302 °F

Hold 60 min 150 °C 302 °F

Ramp 100 min 2.2 °C / min 4 °F / min

Hold 120 min 371 °C 700 °F

Ramp 180 min 2.0 °C / min 3.6 °F / min

Hold 280 min 732 °C 1350 °F

Ramp 100 min - 2.2 °C / min - 4 °F / min

Hold

(casting window)

Up to 2

hours

512 °C

or casting temp

954 °F

or casting temp

CASTABLE RESIN

FLCABL02

METRIC IMPERIAL METHOD

Tensile Properties 

Tensile Strength at Break

11.6 MPa 1680 psi ASTM D 638-10

Tensile Modulus

220 MPa 32 ksi ASTM D 638-10

Elongation at Break

13 % 13 % ASTM D 638-10

 Material properties can vary with part geometry,

print orientation, print settings, and temperature.

Data was obtained from parts printed using Form 2,

Castable 50 µm Fine Detail settings, and post-cured

with 2.5 mW/cm

of ﬂuorescent bulb UV light, centered

at 405 mm.

Post-Curing Info:

Formlabs recommends post-curing

Castable Resin parts for 280 minutes at 45 °C.

Post-Curing Info:

No post-cure required.

We speciﬁcally recommend Plasticast with BANDUST. If seeking alternatives, look for investments advertised to work with

photopolymers. Customers have reported success with Kerr SatinCast and Omega+ by Goldstar Powders. You can also

experiment with bonded investments, like those typically used for dental applications. Some casting houses have also

developed proprietary investments.

PHASE TIME SCHEDULE °C SCHEDULE °F

Insert Flasks 0 min Room temp Room temp

Ramp 150 min 1.0 °C / min 1.9 °F / min

Hold 30 min 177 °C 350 °F

Ramp 270 min 2.1 °C / min 3.7 °F / min

Hold 180 min 732 °C 1350 °F

Ramp 150 min - 1.7 °C / min - 3.0 °F / min

Hold

(casting window)

Up to 2

hours

482 °C

or desired

casting temp

900 °F

or desired

casting temp

JEWELRY CASTING BURNOUT SCHEDULE  CASTABLE WAX RESIN JEWELRY CASTING BURNOUT SCHEDULE  CASTABLE RESIN

800

700

600

500

400

300

200

100

800

700

600

500

400

300

200

100

0 2 31 4 5 6 7 8 9 1110 12 13 14

TIME (hours)

TEMPERATURE (C)

A B C D

TIME (hours)

TEMPERATURE (C)

A B C D

800

700

600

500

400

300

200

100

800

700

600

500

400

300

200

100

0 2 31 4 5 6 7 8 9 1110 12 13 14

TIME (hours)

TEMPERATURE (C)

A B C D

TIME (hours)

TEMPERATURE (C)

A B C D

DENTAL MODEL

FLDMBE02

METRIC

IMPERIAL

METHOD

Green Post-Cured

Tensile Properties

Tensile Strength at Yield

33 MPa 61 MPa 4800 psi 8820 psi ASTM D 638-14

Tensile Modulus

1.0 GPa 2.7 GPa 230 ksi 397 ksi ASTM D 638-14

Elongation at Failure

25 % 5 % 25 % 5 % ASTM D 638-14

Flexural Properties

Flexural Modulus

0.95 GPa 2.5 GPa 138 ksi 365 ksi ASTM D 790-15

Flexural Strength at 5% Strain

33.9 MPa 95.8 MPa 4910 psi 13900 psi ASTM D 790-15

Impact Properties

Notched IZOD

27 J/m 33 J/m 0.5 ft-lbf/in 0.6 ft-lbf/in ASTM D256-10

Thermal Properties

Heat Deﬂection Temp. @ 1.8 MPa

32.8 °C 45.9 °C 91.1 °F 114.6 °F ASTM D 648-16

Heat Deﬂection Temp. @ 0.45 MPa

40.4 °C 48.5 °C 104.7 °F 119.3 °F ASTM D 648-16

DENTAL SG

FLDGOR01

METRIC METHOD

Post-Cured

Flexural Properties

Flexural Strength

≥ 50 MPa ISO 20795-1:2013

Flexural Modulus

≥ 1500 Mpa ISO 20795-1:2013

Hardness Properties

Shore Hardness

≥ 80 D per ISO 868:2003

Impact Properties

Charpy Impact Strength Unnotched

12 - 14 kJ/m ISO 179:2010

Dental SG is tested at NAMSA,

Chasse sur Rhône in France, and is

certiﬁed biocompatible per EN-ISO

10993-1:2009/AC:2010:

• Non-mutagenic.

• Non-cytotoxic.

• Not induce any erythema or edema

reactions.

• Not a sensitizer.

• Not cause systemic toxicity.

The product is in compliance

with ISO Standards:

• EN-ISO 20795-1:2013 (Dentistry – Base

Polymers – Part 1: Denture Base Polymers)

• EN-ISO 7405:2009/A1:2013 (Dentistry –

Evaluation of biocompatibility of medical

devices used in dentistry)

• EN-ISO 10993-1:2009/AC:2010 (Biological

evaluation of medical devices – Part 1 –

Evaluation and testing)

NOTES:

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data refers to post-cured properties

obtained after exposing green parts to

108 watts each of Blue UV-A (315 – 400

nm) and UV-Blue (400 – 550 nm) light, in a

heated environment at 60 °C (140 °F), with

six (6) 18W/71 lamps (Dulux L Blue) and six

(6) 18W/78 lamps (Dulux blue UV-A).

DENTAL LT CLEAR

FLDLCL01

METRIC METHOD

Post-Cured

Flexural Properties

Ultimate Flexural Strength

≥ 50 MPa (no break) ISO 20795-2:2013

Flexural Modulus

≥ 1300 Mpa ISO 20795-2:2013

Hardness Properties

Shore Hardness

80 - 90D ISO 868:2003

Impact Properties

Maximum stress intensity factor

≥ 1.1 MPa•m

⁄

ISO 179:2010

Total fracture work

≥ 250 J/m ISO 20795-2:2013

Dental LT Clear is tested at NAMSA,

Chasse sur Rhône in France, and is

certiﬁed biocompatible per EN-ISO

10993-1:2009/AC:2010. Further details are

available upon request.

The product is in compliance with

ISO Standards:

• EEN ISO 1641:2009

• EN-ISO 10993-1:2009/AC:2010

• EN-ISO 10993-3:2009

• EN-ISO 10993-5:2009

• EN 908:2008

NOTES:

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data refers to post-cured properties

obtained after exposing green parts to

108 watts each of Blue UV-A (315 – 400

nm) and UV-Blue (400 – 550 nm) light, in

a heated environment at 80 °C (176 °F),

with six (6) 18W/71 lamps (Dulux L Blue) and

six (6) 18W/78 lamps (Dulux blue UV-A) for

20 minutes.

Material properties can vary with

part geometry, print orientation, print

settings, and temperature.

Data was obtained from green parts, printed

using Form 2, 100 µm, Dental Model settings,

washed and air dried without post cure.

Data was obtained from parts printed using

Form 2, 100 µm, Dental Model settings, and

post-cured with 1.25 mW/cm² of 405 nm LED

light for 60 minutes.

DENTURE TEETH

FLDTA201

METRIC METHOD

Post-Cured

Flexural Strength

> 50 MPa

ISO 10477

Density

1.15 g/cm3 < X <1.25 g/cm³

ASTM D792-00

DENTURE BASE

FLDBLP01

METRIC METHOD

Post-Cured

Flexural Strength

> 65 MPa

ISO 20795-1

Density

1.15 g/cm3 < X <1.25 g/cm³

ASTM D792-00

Denture Base and Teeth resins were tested

for biological evaluation of medical devices

at WuXi Apptec, 2540 Executive Drive, St.

Paul, MN, and is certiﬁed biocompatible per

EN-ISO 10993-1:2009/ AC:2010:

• Non-mutagenic.

• Non-cytotoxic.

• Not induce erythema or edema reactions.

• Not a sensitizer.

• Not cause systemic toxicity.

Denture Teeth ISO Standard:

• EN-ISO 22112: 2017 (Dentistry – Artiﬁcial

teeth for dental prostheses)

• Flexural Strength, Water sorption and

Water solubility under EN-ISO 10477

(Dentistry – Polymer-based crown and

veneering materials) Type 2 and Class 2

Denture Base ISO Standard

• EN-ISO 20795-1:2013 (Dentistry – Base

Polymers – Part 1: Denture Base Polymers)

NOTES:

Material properties can vary with part

geometry, print orientation, print settings,

and temperature.

Data refers to post-cured properties

obtained after exposing green parts to 108

watts each of Blue UV-A (315 – 400 nm),

in a heated environment at 80 °C (140 °F)

and 1hr, with six (6) 18W/78 lamps (Dulux

blue UV-A).

SOLVENT COMPATIBILITY

Percent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent

24 HR WEIGHT GAIN % DENTAL MODEL

Solvent

STANDARD

(tested with Clear)

GREY PRO RIGID TOUGH DURABLE FLEXIBLE HIGH TEMP ELASTIC GREEN POSTCURED

Acetic Acid, 5 %

< 1 <1 <1 2.8 1.3 1.3 < 1 <1 G * G

Acetone

sample cracked 10.8 3.3 sample cracked sample cracked 33 < 1 19.3 X X *

Isopropyl Alcohol

< 1 1.6 <1 2.1 5.1 9.8 < 1 13.3 X G

Bleach, ~5 % NaOCl

< 1 <1 <1 1.7 < 1 1.1 < 1 <1 G G

Butyl Acetate

< 1 <1 <1 1.6 7.9 16 < 1 18.2 X G

Diesel

< 1 <1 <1 < 1 < 1 not tested < 1 1.2 not tested not tested

Diethyl glycol monomethyl ether

1.7 2.4 1.4 6.6 7.8 30 < 1 12 X G

Hydrolic Oil

< 1 <1 <1 < 1 < 1 not tested < 1 <1 not tested not tested

Skydrol 5

1 <1 1.1 1.2 1.3 not tested < 1 9.9 not tested not tested

Hydrogen Peroxide (3 %)

< 1 <1 <1 2.1 1 1.3 < 1 <1 G G

Isooctane

< 1 <1 <1 < 1 < 1 < 1 < 1 <1 G G

Mineral Oil, light

< 1 <1 <1 < 1 < 1 not tested < 1 <1 not tested not tested

Mineral Oil, heavy

< 1 <1 <1 < 1 < 1 not tested < 1 <1 not tested not tested

Salt Water (3.5 % NaCl)

< 1 <1 <1 1.5 < 1 < 1 < 1 <1 G G

Sodium hydroxide (0.025 %, pH = 10)

< 1 <1 <1 1.5 < 1 1 < 1 <1 G G

Water

< 1 <1 <1 1.6 < 1 not tested < 1 <1 G G

Xylene

< 1 <1 <1 < 1 6.5 29 < 1 20.4 X G

Strong Acid (HCI Conc)

distorted 8.2 5.3 distorted distorted not tested 1.2 14.2 not tested not tested

* G = Good resistance. Parts exposed

to this solvent should not experience a

decrease in mechanical properties. (≤ 1%

weight gain, ≤ 1% width increase over 24

hours for a 1 x 1 x 1 cm cube)

* X = Unacceptable resistance. Parts

exposed to this solvent will experience

a signiﬁcant decrease in mechanical

properties as well as visible degradation.

(> 2% weight gain, > 2% width increase

over 24 hours for a 1 x 1 x 1 cm cube)

To the best of our knowledge the information contained herein is accurate. However, Formlabs, Inc. makes

no warranty, expressed or implied, regarding the accuracy of these results to be obtained from the use thereof.