Upload
others
View
11
Download
0
Embed Size (px)
Citation preview
Materials Data Sheets Resins
Our Resins
Draft resin guarantees a smooth finish and high accuracy. Being an easy and fast material to print it is
ideal for first prototypes and rapid iterations, to help our clients bring their products faster to the market.
3
DRAFT RESIN
- CONSUMER GOODS
- PROTOTYPING
APPLICATIONS
TBD
CASE STUDY
DRAFT RESIN
Ultimate Tensile Strength
Tensile Modulus
Elongation at Break
Flexural Modulus
Notched IZOD
Heat Deflection Temp. at 1.8 MPa
Heat Deflection Temp. at 0.45 MPa
CHARACTERISTICS
GREEN
24 MPa
0.8 GPa
14%
0.6 GPa
26 J/m
37 °C
43 °C
POST-CURED AT ROOM TEMP.
36 MPa
1.7 GPa
5%
1.8 GPa
29 J/m
44 °C
53 °C
POST-CURED AT 60°C
52 MPa
2.3 GPa
4%
2.3 GPa
26 J/m
57 °C
74 °C
METHOD
ASTM D 638-14
ASTM D 638-14
ASTM D 638-14
ASTM D 790-17
ASTM D 256-10
ASTM D 648-18
ASTM D 648-18
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydraulic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
24H WEIGHT GAIN
0.18 %4.24 %0.14 %0.11 %0.10 %0.77 %< 0.10 %0.23 %< 0.10 %< 0.10 %
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)TPMWaterXylene
24H WEIGHT GAIN
< 0.10 %< 0.10 %0.34 %0.31 %0.28 %
< 0.10 %0.29 %< 0.10 %< 0.10 %
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
A soft resin with 50A Shore durometer, suitable to replace silicone. It is perfect for parts that will bend,
stretch, compress, and hold up to repeated cycles without tearing.
4
ELASTIC 50A
- CONSUMER GOODS
- MEDICAL
- FASHION
- PROTOTYPING
APPLICATIONS
TBD
CASE STUDY
ELASTIC 50A
Ultimate Tensile Strength
Stress at 50% Elongation
Stress at 100% Elongation
Elongation at Failure
Compression set at 23 ˚C for 22h
Compression set at 70 ˚C for 22h
Tear strength
Shore Hardness
CHARACTERISTICS
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
GREEN
1.61 MPa
0.92 MPa
1.54 MPa
100%
2%
3%
8.9 kN/m
40A
POST-CURED
3.23 MPa
0.94 MPa
1.59 MPa
160%
2%
9%
19.1 kN/m
50A
METHOD
ASTM D 412-06 (A)
ASTM D 412-06 (A)
ASTM D 412-06 (A)
ASTM D 412-06 (A)
ASTM D 395-03 (B)
ASTM D 395-03 (B)
ASTM D 624-00
ASTM 2240
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydrolic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
24H SIZE GAIN
< 1 %19.3 %< 1 %18.2 %1.2 %12 %< 1%< 1%< 1%13.3%
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)WaterXylene
24H SIZEGAIN
< 1 %< 1 %< 1 %9.9 %< 1 %
14.2 %< 1 %20.4 %
24H WEIGHT GAIN
2.8 %37.3 %2 %39.6 %4.2 %28.6 %2.1%2.2%3.5%25.6%
24H WEIGHT GAIN
< 1 %< 1 %1.7 %21.7 %2 %
39.4 %2.3 %46.6 %
Durable Resin is a perfect choice for squeezable parts and low-friction assemblies.This material is one of the
most pliable, impact resistant, and lubriciousresins.
5
DURABLE RESIN
- CONSUMER GOODS
- MEDICAL
- FASHION
- PROTOTYPING
APPLICATIONS
TBD
CASE STUDY
DURABLE RESIN
Ultimate Tensile Strength
Tensile Modulus
Elongation at Break
Flexural Stress at 5% Strain
Flexural Modulus
Notched IZOD
Unnotched IZOD
Heat Deflection Temp. at 0.45 MPa
Thermal Expansion
CHARACTERISTICS
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
GREEN
13 MPa
0.24 GPa
75%
1.0 MPa
0.04 GPa
127 J/m
972 J/m
< 30 °C
124 µm/m/°C
POST-CURED
28 MPa
1.0 GPa
55%
24 MPa
0.66 GPa
114 J/m
710 J/m
41 °C
106 µm/m/°C
METHOD
ASTM D 638-14
ASTM D 638-14
ASTM D 638-14
ASTM D 790-17, Procedure A
ASTM D 790-17, Procedure A
ASTM D 256-10 (2018), Test Method A
ASTM D 4812-11
ASTM D 648-18, Method B
ASTM E 831-14
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydrolic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)WaterXylene
24H WEIGHT GAIN
1.3 %sample cracked
<1 %7.9 %<1 %7.8 %<1 %1 %<1 %5.1 %
24H WEIGHT GAIN
< 1 %< 1 %<1 %1.3 %<1 %
distorted<1 %6.5 %
Flexible 80A Resin a stiff soft-touch material with an 80A Shore durometer, similar to the flexibility of rubber or TPU.
Balancing softness with strength it can withstand bending, flexing, and compression, even through repeated cycles..
6
FLEXIBLE 80A
- CONSUMER GOODS
- MEDICAL
- FASHION
- PROTOTYPING
- ELECTRONICS
APPLICATIONS
TBD
CASE STUDY
FLEXIBLE 80A
Ultimate Tensile Strength
Stress at 50% Elongation
Stress at 100% Elongation
Elongation at Break
Shore Hardness
Compression Set (23°C for 22 hrs)
Compression Set (70°C for 22 hrs)
Tear Strength
Ross Flex fatigue at 23°C
Ross Flex fatigue at -10°C
Bayshore Resilience
Glass transition temperature
CHARACTERISTICS
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
GREEN
3.7 MPa
1.5 MPa
3.5 MPa
100%
70A
Not tested
Not tested
11 kN/m
Not tested
Not tested
Not tested
Not tested
POST-CURED
8.9 MPa
3.1 MPa
6.3 MPa
120%
80A
3%
5%
24 kN/m
> 200.000 cycles
> 50.000 cycles
28%
27 °C
METHOD
ASTM D 412-06 (A)
ASTM D 412-06 (A)
ASTM D 412-06 (A)
ASTM D 412-06 (A)
ASTM 2240
ASTM D 624 - 00
ASTM D 395-03 (B)
ASTM D 395-03 (B)
ASTM D 1052, notched, 60° bending, 100cycles/min
ASTM D 1052, notched, 60° bending, 100cycles/min
ASTM D 2632
DMA
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydrolic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)Tripropylene Glycol Methyl Ether
WaterXylene
24H WEIGHT GAIN
0.9 %37.4 %
0.6 %51.4 %2.3 %19.3 %1.0 %0.7 %1.6 %11.7 %
24H WEIGHT GAIN
<0.1 %0.1 %0.5 %10.7 %0.6 %
28.6 %13.6 %0.7 %64.1 %
Grey Pro Resin has high precision, moderate elongation and resistance to deformation over time: a
versatile material suitable for a vide range of engineering applications.
7
GREY PRO
- ENGINEERING
- MEDICAL
- ELECTRONICS
- PROTOTYPING
- GOODS
APPLICATIONS
TBD
CASE STUDY
GREY PRO
Ultimate Tensile Strength
Tensile Modulus
Elongation
Flexural Stress at 5% strain
Flexural Modulus
Notched IZOD
Heat Deflection Temp. at 1.8 MPa
Heat Deflection Temp. at 0.45 Mpa
Thermal Expansion (-30 to 30 °C)
CHARACTERISTICS
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
GREEN
35 MPa
1.4 GPa
32.5 %
39 MPa
0.94 GPa
Not tested
Not tested
Not tested
Not tested
POST-CURED
61 MPa
2.6 GPa
13%
86 MPa
2.2 GPa
18.7 J/m
62.4 °C
77.5 °C
78.5 um/m/C
METHOD
ASTM D 638-14
ASTM D 638-14
ASTM D 638-14
ASTM D 790-15
ASTM D 790-15
ASTM D 256-10
ASTM D 648-16
ASTM D 648-16
ASTM E 831-13
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydrolic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)WaterXylene
24H WEIGHT GAIN
0.75 %10.77 %
0.65 %0.84 %0.08 %2.38 %0.16 %0.75 %0.02 %1.56 %
24H WEIGHT GAIN
0.27 %0.35 %0.64 %0.54 %0.72 %
8.21 %0.83 %0.42 %
8
- CONSUMER GOODS
- MEDICAL
- FASHION
- PROTOTYPING
APPLICATIONS
TBD
CASE STUDY
CHARACTERISTICS
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydrolic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
24H SIZE GAIN
< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)WaterXylene
24H SIZEGAIN
< 1 %< 1 %< 1 %< 1 %< 1 %
1.2 %< 1 %< 1 %
24H WEIGHT GAIN
< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %< 1 %
24H WEIGHT GAIN
< 1 %< 1 %< 1 %< 1 %< 1 %
< 1 %< 1 %< 1 %
HIGH TEMP
HIGH TEMP
Heat Deflection Temp. at 1.8 MPa
Heat Deflection Temp. at 0.45 MPa
Ultimate Tensile Strength
Elongation at Break
Tensile Modulus
Flexural Strength at break
Flexural Modulus
Notched IZOD
Thermal Expansion (0-150°C)
POST-CURED AT ROOM TEMP.
99.2 °C
142 °C
58.3 MPa
3.3%
2.75 GPa
94.5 Mpa
2.62 GPa
18.2 J/m
79.6 µm/m/°C
POST-CURED + THERMALLY POST-CURED
101 °C
238 °C
51.1 MPa
2.4 %
2.9 GPa
93.8 MPa
2.62 GPa
24.2 J/m
74 µm/m/°C
METHOD
ASTM D 648-16
ASTM D 648-16
ASTM D 638-14
ASTM D 638-14
ASTM D 638-14
ASTM D 790-15
ASTM D 790-15
ASTM D 256-10
ASTM E 831-13
GREEN
43.6 °C
49.3 °C
20.9 MPa
14 %
0.75 GPa
24.1 MPa
0.69 GPa
32.8 J/m
118.1 µm/m/°C
The High Temp resin shows exceptional resistance to heat. This material is optimal for applications that need to
resist up to 238°C, manufacturing objects that are both resistant and highly precise.
This glass-filled Resin allows for prints to withstand minimal deflection thanks to its high strength and
stiffness. Perfect for general load-bearing application, this material also guarantees highly polished finishes.
9
RIGID 4000
- ENGINEERING
- MEDICAL
- ELECTRONICS
- PROTOTYPING
- GOODS
APPLICATIONS
TBD
CASE STUDY
RIGID 4000
Ultimate Tensile Strength
Tensile Modulus
Elongation at Break
Flexural Strength
Flexural Modulus
Notched IZOD
Heat Deflection Temp. at 1.8 MPa
Heat Deflection Temp. at 0.45 Mpa
Thermal Expansion (0-150 °C)
CHARACTERISTICS
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
GREEN
33 MPa
2.1 GPa
23 %
43 MPa
1.4 GPa
16 J/m
41° C
48° C
64 µm/m/°C
UV
69 MPa
4.1 GPa
5.3 %
105 MPa
3.4 GPa
23 J/m
60 °C
77 °C
63 µm/m/°C
METHOD
ASTM D 638-14
ASTM D 638-14
ASTM D 638-14
ASTM D 790-15
ASTM D 790-15
ASTM D 256-10
ASTM D 648-16
ASTM D 648-16
ASTM E 831-13
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydraulic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)WaterXylene
24H WEIGHT GAIN
0.8 %3.3 %
0.69 %<0.1 %<0.1 %1.4 %0.17 %0.87 %<0.1 %<0.38 %
24H WEIGHT GAIN
0.22 %0.15 %0.71 %1.1 %0.68 %
5.3 %0.70 %<0.1 %
This resin is suitable for demanding applications that require high accuracy and smooth finishes. The
material proves also good strength, being a perfect choice for the manufacturing of robust parts.
10
STANDARD
- ENGINEERING
- MEDICAL
- ELECTRONICS
- PROTOTYPING
- GOODS
APPLICATIONS
TBD
CASE STUDY
STANDARD
Ultimate Tensile Strength
Tensile Modulus
Elongation at Failure
Flexural Modulus
Notched IZOD
Heat Deflection Temp. at 1.8 MPa
Heat Deflection Temp. at 0.45 MPa
CHARACTERISTICS
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
GREEN
38 MPa
1.6 GPa
12 %
1.25 GPa
16 J/m
42.7 °C
49.7 °C
POST-CURED
65 MPa
2.8 GPa
6.2 %
2.2 GPa
25 J/m
58.4 °C
73.1 °C
METHOD
ASTM D 638-10
ASTM D 638-10
ASTM D 638-10
ASTM D 790-10
ASTM D 256-10
ASTM D 648-07
ASTM D 648-07
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydrolic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)WaterXylene
24H WEIGHT GAIN
< 1 %sample cracked< 1 %< 1 %< 1 %1.7 %< 1 %< 1 %< 1 %< 1 %
24H WEIGHT GAIN
< 1 %< 1 %< 1 %1 %< 1 %
distorted< 1 %< 1 %
This material is one of the strongest and stiffest resins printable. A perfect solution to manufacture or prototype
strong and sturdy parts that should not bend easily.
11
TOUGH 2000
- ENGINEERING
- MEDICAL
- ELECTRONICS
- PROTOTYPING
- GOODS
APPLICATIONS
TBD
CASE STUDY
TOUGH 2000
Ultimate Tensile Strength
Tensile Modulus
Elongation at Break
Flexural Strength
Flexural Modulus
Notched IZOD
Unnotched IZOD
Heat Deflection Temp. at 1.8 MPa
Heat Deflection Temp. at 0.45 Mpa
Coefficient of Thermal Expansion
CHARACTERISTICS
SOLVENT COMPATIBILITYPercent weight gain over 24 hours for a printed and post-cured 1 x 1 x 1 cm cube immersed in respective solvent:
GREEN
29 MPa
1.2 GPa
74 %
17 MPa
0.45 GPa
79 J/m
208 J/m
42 °C
48 °C
107 µm/m/°C
POST-CURED
46 MPa
2.2 GPa
48 %
65 MPa
1.9 GPa
40 J/m
715 J/m
53 °C
63 °C
91 µm/m/°C
METHOD
ASTM D 638-14
ASTM D 638-14
ASTM D 638-14
ASTM D 790-15
ASTM D 790-15
ASTM D 256-10
ASTM D 256-10
ASTM D 648-16
ASTM D 648-16
ASTM E 831-13
SOLVENT
Acetic Acid 5%AcetoneBleach ~5% NaOClButyl AcetateDiesel FuelDiethyl glycol Monomethyl EtherHydrolic OilHydrogen peroxide (3%)Isooctane (aka gasoline) Isopropyl Alcohol
SOLVENT
Mineral oil (Heavy)Mineral oil (Light)Salt Water (3.5% NaCl) Skydrol 5Sodium Hydroxide solution (0.025% PH 10)Strong Acid (HCl conc)WaterXylene
24H WEIGHT GAIN
0.71 %18.82 %0.56 %6.19 %0.06 %5.32 %0.08 %0.63 %0.03 %3.7 %
24H WEIGHT GAIN
0.17 %0.13 %0.56 %0.87 %0.61%
3.01%0.61%4.1 %
+39 02 332 99531+39 351 0358966
ITA: HeadquarterVia del Seprio, 42, 22074 Lomazzo (CO)
Tel: +39 02.3329.9531
US: Entrepreneurs Roundtable Accelerator415 Madison Ave, 4th floor
New York, NY 10017