NOTES—Test specimens were prepared using Carbon M1 printer and a Type B cassette. Print parameters were generated using software v.0.42.0. Tensile data were generated
using printed Type V samples (per ASTM D638). All other test specimens were printed following standard ASTM test geometries. All test specimens were printed, cleaned, and
post-processed per instructions provided in the Carbon User Manual. Samples designated as UV-cured were cured for 30 seconds per side using a Dymax 5000-EC (225 mW/cm2). Liquid property measurements were carried out using fully mixed resins. Results provided herein are representative of these processes and may vary if these established
protocols are not followed.
PR 25PR 25 is a rapid production material that has excellent resolution, prints quickly, and is able to withstand moderate functional testing.
PR 25 TECHNICAL DATA SHEET 7/5/16
Tensile Properties—ASTM D638
GREEN UV-CURED
METRIC IMPERIAL METRIC IMPERIAL
Ultimate Tensile Strength 26 - 32 MPa 3770 - 4600 psi 42 - 50 MPa 6000 - 7200 psi
Tensile Strength at Yield 26 - 32 MPa 3770 - 4600 psi 42 - 50 MPa 6000 - 7200 psi
Modulus 600 - 950 MPa 87 - 138 ksi 1400 - 1500 MPa 203 - 218 ksi
Elongation-at-Break 15 - 28 % 15 - 28 % 3 - 5% 3 - 5%
Flexural Properties —ASTM D790
GREEN UV-CURED
METRIC IMPERIAL METRIC IMPERIAL
Flexural Strength 35 - 45 MPa 5000 - 6500 psi 75 - 85 MPa 11- 12 ksi
Flexural Modulus 1100 - 1300 MPa 160 - 190 ksi 2000 - 2500 MPa 290 - 360 ksi
Impact Properties—ASTM D256, ASTM D4812
IMPACT STRENGTHGREEN UV-CURED
METRIC IMPERIAL METRIC IMPERIAL
Machined Izod notch 24 - 28 J/m 0.45 - 0.52 ft-lb/in. 18 - 21 J/m 0.33 - 0.40 ft-lb/in.
Izod Unnotched 380 - 420 J/m 7.1 - 7.9 ft-lb/in. 150 - 190 J/m 2.8 - 3.5 ft-lb/in.
IMPACT ENERGYGREEN UV-CURED
METRIC IMPERIAL METRIC IMPERIAL
Machined Izod notch 2.3 - 2.7 kJ/m2 0.21 - 0.25 ft-lb/in2 1.7 - 2.0 kJ/m2 0.16 - 0.19 ft-lb/in2
Izod Unnotched 37 - 41 kJ/m2 3.4 - 3.8 ft-lb/in2 15 - 19 kJ/m2 1.3 - 1.7 ft-lb/in2
PR 25 TECHNICAL DATA SHEET 7/5/16
Thermal Properties
GREEN UV-CURED
METRIC IMPERIAL METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa/66 psi (ASTM D648)
52 °C 125 °F 61 °C 142 °F
Heat Deflection Temperature @ 1.82 MPa/264 psi (ASTM D648)
41 °C 105 °F 45 °C 113 °F
Tg (DMA, E’) 47 °C 116 °F 47 °C 116 °F
Tg (DMA, tan(d)) 90 °C 194 °F 90 °C 194 °F
Coefficient of Thermal Expansion (ASTM E228)
133 - 141 ppm/°C
Liquid Properties
Viscosity (@25°C, cP) 1600 - 1800
Liquid Density (g/mL, @25°C) 1.10 - 1.12
PR 25 TECHNICAL DATA SHEET 7/5/16
NOTES—Test specimens were prepared using Carbon M1 printer and a Type B cassette. Print parameters were generated using software v.0.42.0. Tensile data were generated
using printed Type V samples (per ASTM D638). All other test specimens were printed following standard ASTM test geometries. All test specimens were printed, cleaned, and
post-processed per instructions provided in the Carbon User Manual. Liquid property measurements were carried out using fully mixed resins. Results provided herein are representative of these processes and may vary if these established protocols are not followed.
FPU 230FPU 230 is an impact, abrasion and fatigue resistant semi-rigid material that is a good choice for parts that must withstand repetitive stresses such as living hinges or friction fits.
FPU 230 TECHNICAL DATA SHEET 7/5/16
Tensile Properties—ASTM D638
METRIC IMPERIAL
Ultimate Tensile Strength 23 - 28 MPa 3300 - 4060 psi
Tensile Strength at Yield 14 - 16 MPa 2030 - 2320 psi
Modulus 600 - 850 MPa 87 - 123 ksi
Elongation-at-Break 200 - 250% 200 - 250%
Flexural Properties —ASTM D790
METRIC IMPERIAL
Flexural Strength 20 - 24 MPa 2900 - 3500 psi
Flexural Modulus 800 - 900 MPa 116 - 130 ksi
Impact Properties—ASTM D256, ASTM D4812
IMPACT STRENGTHIMPACT STRENGTH IMPACT ENERGY
METRIC IMPERIAL METRIC IMPERIAL
Machined Izod notch 35 - 39 J/m 0.65 - 0.73 ft-lb/in. 2.7 - 2.9 kJ/m2 0.25 - 0.27 ft-lb/in2
Printed Izod notch 40 - 60 J/m 0.75 - 1.1 ft-lb/in. 3.9 - 5.4 kJ/m2 0.36 - 0.49 ft-lb/in2
Izod Unnotched 1470 - 1670 J/m 27 - 31 ft-lb/in. 71 - 80 kJ/m2 6.5 - 7.2 ft-lb/in2
FPU 230 TECHNICAL DATA SHEET 7/5/16
Thermal Properties
METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa/66 psi (ASTM D648)
52 °C 125 °F
Heat Deflection Temperature @ 1.82 MPa/264 psi (ASTM D648)
38 °C 100 °F
Tg (DMA, E’) 60 °C 140 °F
Tg (DMA, tan(d)) 98 °C 208 °F
Coefficient of Thermal Expansion (ASTM E228) 157 - 167 ppm/°C
Liquid Properties
Viscosity (@25°C, cP) 1800 - 2000
Liquid Density (g/mL, @25°C) 1.00 - 1.02
FPU 230 TECHNICAL DATA SHEET 7/5/16
NOTES—Test specimens were prepared using Carbon M1 printer and a Type B cassette. Print parameters were generated using software v.0.42.0. Tensile data were generated
using printed Type V samples (per ASTM D638). All other test specimens were printed following standard ASTM test geometries. All test specimens were printed, cleaned, and
post-processed per instructions provided in the Carbon User Manual. Liquid property measurements were carried out using fully mixed resins. Results provided herein are representative of these processes and may vary if these established protocols are not followed.
RPU 60RPU 60 is a tough, abrasion-resistant material that is a good choice for parts that require rigidity, strength, and durability.
RPU 60 —VERSION 1 TECHNICAL DATA SHEET 8/1/16 V3.3
Tensile Properties—ASTM D638
METRIC IMPERIAL
Ultimate Tensile Strength 48 ± 8 MPa 7000 ± 1000 psi
Tensile Strength at Yield 42 ± 2 MPa 6100 ± 200 psi
Elongation at Yield 6 ± 1 % 6 ± 1 %
Modulus 1600 ± 100 MPa 230 ± 15 ksi
Elongation-at-Break 130 ± 10 % 130 ± 10 %
Flexural Properties —ASTM D790
METRIC IMPERIAL
Flexural Strength 42 ± 2 MPa 6000 ± 250 psi
Flexural Modulus 1450 ± 500 MPa 210 ± 8 ksi
Impact Properties—ASTM D256, ASTM D4812
IMPACT STRENGTHIMPACT STRENGTH IMPACT ENERGY
METRIC IMPERIAL METRIC IMPERIAL
Machined Izod notch 29 ± 1 J/m 0.54 ± 0.02 ft-lb/in. 2.8 ± 0.1 kJ/m2 0.26 ± 0.1 ft-lb/in2
Izod Unnotched 770 ± 40 J/m 14 ± 1 ft-lb/in. 75 ± 5 kJ/m2 35 ± 2 ft-lb/in2
RPU 60 —VERSION 1 TECHNICAL DATA SHEET 8/1/16 V3.3
Thermal Properties
METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa/66 psi (ASTM D648)
58 °C 136 °F
Heat Deflection Temperature @ 1.82 MPa/264 psi (ASTM D648)
49 °C 120 °F
Tg (DMA, E’) 64 °C 147 °F
Tg (DMA, tan(d)) 100 °C 212 °F
Coefficient of Thermal Expansion (ASTM E228) 180 ppm/°C
Liquid Properties
Viscosity (@25°C, cP) 5500 ± 500
Liquid Density (g/mL, @25°C) 1.02
RPU 60 —VERSION 1 TECHNICAL DATA SHEET 8/1/16 V3.3
NOTES—Test specimens were prepared using a Carbon M1 printer and a Type C cassette. Print parameters were generated using software 1.5-158.60. Tensile data were
generated using printed Type V samples (per ASTM D638). All other test specimens were printed following standard ASTM test geometries. All test specimens were printed,
cleaned, and post-processed per instructions provided in the Carbon User Manual. Liquid property measurements were carried out using fully mixed resins. Results provided herein are representative of these processes and may vary if these established protocols are not followed.
RPU 61RPU 61 is a tough, and abrasion-resistant higher resolution material that is a good choice for parts that require rigidity, strength, and durability.
RPU 61 —VERSION 1 TECHNICAL DATA SHEET 7/7/16 V1.2
Tensile Properties—ASTM D638
METRIC IMPERIAL
Ultimate Tensile Strength 42 ± 3 MPa 6100 ± 450 psi
Tensile Strength at Yield 40 ± 2 MPa 5800 ± 290 psi
Elongation at Yield 6 ± 1 % 6 ± 1 %
Modulus 1500 ± 100 MPa 218 ± 15 ksi
Elongation-at-Break 120 ± 10 % 120 ± 10 %
Flexural Properties —ASTM D790
METRIC IMPERIAL
Flexural Strength 37 ± 2 MPa 5400 ± 300 psi
Flexural Modulus 1100 ± 100 MPa 160 ± 15 ksi
Impact Properties—ASTM D256, ASTM D4812, ISO 179
IMPACT STRENGTH METRIC IMPERIAL
Machined notch, Izod 27 ± 2 J/m 0.5 ± 0.04 ft-lb/in.
Unnotched, Izod 1200 ± 200 J/m 22 ± 4 ft-lb/in.
Machined notch, Charpy 2.2 ± 0.4 kJ/m2 1.0 ± 0.2 ft-lb/in2
RPU 61 —VERSION 1 TECHNICAL DATA SHEET 7/7/16 V1.2
Thermal Properties
METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa/66 psi (ASTM D648)
59 °C 137 °F
Heat Deflection Temperature @ 1.82 MPa/264 psi (ASTM D648)
48 °C 119 °F
Tg (DMA, E’) 53 °C 128 °F
Tg (DMA, tan(d)) 98 °C 208 °F
Coefficient of Thermal Expansion (ASTM D696) 66 ppm/°C
Liquid Properties
Viscosity (@25 °C, cP) 6000 ± 500
Liquid Density (g/mL, @25 °C) 1.01 - 1.02
RPU 61 —VERSION 1 TECHNICAL DATA SHEET 7/7/16 V1.2
Dielectric Properties
Dissipation Factor (ASTM D150, 1 MHz) 0.017
Dielectric Constant, k (ASTM D150, 1 MHz) 3.10
NOTES—Test specimens were prepared using Carbon M1 printer and a Type B cassette. Print parameters were generated using software v.0.3.0. Tensile data were generated
using printed Type V samples (per ASTM D638). All other test specimens were printed following standard ASTM test geometries. All test specimens were printed, cleaned, and
post-processed per instructions provided in the Carbon User Manual. Liquid property measurements were carried out using fully mixed resins. Results provided herein are representative of these processes and may vary if these established protocols are not followed.
RPU 70RPU 70 is a tough, heat resistant material that is a good choice for parts requiring strength, toughness, and moderate heat resistance.
RPU 70 —VERSION 1 TECHNICAL DATA SHEET 8/1/16 V3.3
Tensile Properties—ASTM D638
METRIC IMPERIAL
Ultimate Tensile Strength 45 ± 2 MPa 6500 ± 300 psi
Tensile Strength at Yield 45 ± 2 MPa 6500 ± 300 psi
Modulus 1900 ± 200 MPa 290 ± 30 ksi
Elongation-at-Break 100 ± 20 % 100 ± 20 %
Flexural Properties —ASTM D790
METRIC IMPERIAL
Flexural Strength 62 ± 9 MPa 9000 ± 1300 psi
Flexural Modulus 1800 ± 300 MPa 261 ± 40 ksi
Impact Properties—ASTM D256, ASTM D4812
IMPACT STRENGTHIMPACT STRENGTH IMPACT ENERGY
METRIC IMPERIAL METRIC IMPERIAL
Machined Izod notch 22 ± 1 J/m 0.41 ± 0.02 ft-lb/in. 2.2 ± 0.1 kJ/m2 1.0 ± 0.05 ft-lb/in2
Izod Unnotched 530 ± 30 J/m 9.9 ± 0.5 ft-lb/in. 52 ± 3 kJ/m2 25 ± 2 ft-lb/in2
RPU 70 —VERSION 1 TECHNICAL DATA SHEET 8/1/16 V3.3
Thermal Properties
METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa/66 psi (ASTM D648)
70 °C 160 °F
Heat Deflection Temperature @ 1.82 MPa/264 psi (ASTM D648)
55 °C 130 °F
Tg (DMA, E’) 80 °C 176 °F
Tg (DMA, tan(d)) 119 °C 246 °F
Coefficient of Thermal Expansion (ASTM E228) 160 ppm/°C
Liquid Properties
Viscosity (@25°C, cP) 2200 ± 100
Liquid Density (g/mL, @25°C) 1.01
RPU 70 —VERSION 1 TECHNICAL DATA SHEET 8/1/16 V3.3
NOTES—Test specimens were prepared using Carbon M1 printer and a Type C cassette. Print parameters were generated using software v1.6. Tensile data were generated using
printed tensile bar samples (per ASTM D412). All other test specimens were printed following standard ASTM test geometries. All test specimens were printed, cleaned, and post-
processed per instructions provided in the Carbon User Manual. Liquid property measurements were carried out using fully mixed resins. Results provided herein are representative of these processes and may vary if these established protocols are not followed.
EPU 40EPU 40 is a high performance polyurethane elastomer that is a good choice for applications where high elasticity, resilience, and tear resistance are needed.
EPU 40 —VERSION 1 TECHNICAL DATA SHEET 8/1/16 V1.0
Tensile Properties—ASTM D638
METRIC IMPERIAL
Ultimate Tensile Strength 6 ± 1 MPa 850 ± 150 psi
Tensile Strength at Yield 6 ± 1 MPa 850 ± 150 psi
Modulus 8 ± 1 MPa 1150 ± 150 psi
Elongation-at-Break 190 ± 10 % 190 ± 10 %
Durometer
Hardness, Shore A 65 ± 5
EPU 40 —VERSION 1
Thermal Properties
Tg (DMA, E’) -50 °C -58 °F
Tg (DMA, tan(d)) -6 °C 21 °F
Liquid Properties
Viscosity (@25°C, cP) 4000 ± 500
Liquid Density (g/mL, @25°C) 1.00
TECHNICAL DATA SHEET 8/1/16 V1.0
NOTES—Test specimens were prepared using Carbon M1 printer and a Type B cassette. Print parameters were generated using software v.0.42.0. Tensile data were generated
using printed Type V samples (per ASTM D638). All other test specimens were printed following standard ASTM test geometries. All test specimens were printed, cleaned, and
post-processed per instructions provided in the Carbon User Manual. Liquid property measurements were carried out using fully mixed resins. Results provided herein are representative of these processes and may vary if these established protocols are not followed.
CE 220CE 220 is a high performance material with excellent strength, stiffness and thermal stability that is a good choice for use at elevated temperatures.
CE 220 TECHNICAL DATA SHEET 7/5/16
Tensile Properties—ASTM D638
METRIC IMPERIAL
Ultimate Tensile Strength 90 - 110 MPa 13 - 15.9 ksi
Tensile Strength at Yield 90 - 110 MPa 13 - 15.9 ksi
Modulus 3800 - 4500 MPa 550 - 652 ksi
Elongation-at-Break 2.5 - 4 % 2.5 - 4 %
Flexural Properties —ASTM D790
METRIC IMPERIAL
Flexural Strength 140 - 160 MPa 20 - 23 ksi
Flexural Modulus 3800 - 4200 MPa 550 - 610 ksi
Impact Properties—ASTM D256, ASTM D4812
IMPACT STRENGTHIMPACT STRENGTH IMPACT ENERGY
METRIC IMPERIAL METRIC IMPERIAL
Machined Izod notch 22- 25 J/m 0.41 - 0.47 ft-lb/in. 2.1 - 2.4 kJ/m2 0.10 - 0.11 ft-lb/in2
Izod Unnotched 280 - 350 J/m 5.2 - 6.5 ft-lb/in. 27 - 34 kJ/m2 1.6 - 2.0 ft-lb/in2
CE 220 TECHNICAL DATA SHEET 7/5/16
Thermal Properties
METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa/66 psi (ASTM D648)
219 °C 426 °F
Heat Deflection Temperature @ 1.82 MPa/264 psi (ASTM D648)
191 °C 375 °F
Tg (DMA, E’) 175 °C 347 °F
Tg (DMA, tan(d)) 220 °C 428 °F
Coefficient of Thermal Expansion (ASTM E228) 58 - 62 ppm/°C
Liquid Properties
Viscosity (@25°C, cP) 450 - 500
Liquid Density (g/mL, @25°C) 1.10 - 1.14
CE 220 TECHNICAL DATA SHEET 7/5/16