Yifeng Intelligent Manufacturing

Applicable materials

3D Printing Materials: Material Properties

White resin: Thermal deformation temperature 40-50 degrees, recommended minimum glue thickness 0.5mm, minimum aperture 0.8mm; Material hardness 79 degrees (Shore D), tensile strength (stretching) 47Mpa, tensile strength (breaking) 33-40Mpa, bending strength 67Mpa, bending modulus 2178-2222Mpa, printing error 100mm±0.1, error is cumulative

Tough resin (yellow-green): Thermal deformation temperature 40-50 degrees, recommended minimum glue thickness 0.5mm, minimum aperture 0.8mm; Material hardness 85 degrees (Shore D), tensile strength (stretching) 38-56Mpa, tensile strength (fracture) 60Mpa, bending strength 69-74Mpa, bending modulus 2692-2775Mpa, printing error 100mm±0.1, error is cumulative

Fully transparent resin: Thermal deformation temperature 40-50 degrees, recommended minimum glue thickness 0.5mm, minimum hole diameter 0.8mm; Material hardness 87 degrees (Shore D), tensile strength (stretching) 50Mpa, tensile strength (fracture) 56Mpa, bending strength 84Mpa, bending modulus 2490Mpa, printing error 100mm±0.1, error is cumulative

Translucent resin: Thermal deformation temperature 40-50 degrees, recommended minimum glue thickness 0.5mm, minimum hole diameter 0.8mm; Material hardness 87 degrees (Shore D), tensile strength (stretching) 50Mpa, tensile strength (fracture) 56Mpa, bending strength 84Mpa, bending modulus 2490Mpa, printing error 100mm±0.1, error is cumulative

Matt black resin: Thermal deformation temperature 40-50 degrees, recommended minimum glue thickness 0.5mm, minimum hole diameter 0.8mm; Material hardness 87 degrees (Shore D), tensile strength (stretching) 50Mpa, tensile strength (fracture) 56Mpa, bending strength 84Mpa, bending modulus 2490Mpa, printing error 100mm±0.1, error is cumulative

Extra black resin: Thermal deformation temperature 40-50 degrees, recommended minimum glue thickness 0.5mm, minimum hole diameter 0.8mm; Material hardness 80 degrees (Shore D), tensile strength (stretching) 48Mpa, tensile strength (fracture) 56Mpa, bending strength 68Mpa, bending modulus 2300Mpa, printing error 100mm±0.1, error is cumulative

High temperature resistant resin (gray): Thermal deformation temperature 80～100 degrees, recommended minimum glue thickness 0.5mm, minimum aperture 0.8mm; Material hardness 85 degrees (Shore D), tensile strength (stretching) 40～44Mpa, tensile strength (fracture) 52Mpa, bending strength 64～69Mpa, bending modulus 2900～3200Mpa, printing error 100mm±0.1, error is cumulative

High temperature resistant resin (yellow): Thermal deformation temperature 80～100 degrees, recommended minimum glue thickness 0.5mm, minimum aperture 0.8mm; Material hardness 85 degrees (Shore D), tensile strength (stretching) 40～44Mpa, tensile strength (fracture) 52Mpa, bending strength 64～69Mpa, bending modulus 2900～3200Mpa, printing error 100mm±0.1, error is cumulative

Nylon PA12 frosted (black): Thermal deformation temperature 120～150℃, recommended minimum glue thickness 0.5mm, minimum aperture 0.8mm; Material hardness 75 degrees (Shore D), tensile strength (stretching) 52Mpa, tensile strength (breaking) 52Mpa, bending strength 52Mpa, bending modulus 1500Mpa, printing error 100mm±0.1, error is cumulative

Nylon PA12 frosted (gray): Thermal deformation temperature 120～150℃, recommended minimum glue thickness 0.5mm, minimum aperture 0.8mm; Material hardness 75 degrees (Shore D), tensile strength (stretching) 52Mpa, tensile strength (breaking) 52Mpa, bending strength 52Mpa, bending modulus 1500Mpa, printing error 100mm±0.1, error is cumulative

Nylon PA12 frosted (white): Thermal deformation temperature 120～150℃, recommended minimum glue thickness 0.5mm, minimum aperture 0.8mm; Material hardness 75 degrees (Shore D), tensile strength (stretching) 52Mpa, tensile strength (breaking) 52Mpa, bending strength 52Mpa, bending modulus 1500Mpa, printing error 100mm±0.1, error is cumulative

Nylon PA12+10% glass fiber (black): Thermal deformation temperature 120～150℃, recommended minimum glue thickness 0.5mm, minimum aperture 0.8mm; Material hardness 75 degrees (Shore D), tensile strength (stretching) 52Mpa, tensile strength (breaking) 52Mpa, bending strength 52Mpa, bending modulus 1500Mpa, printing error 100mm±0.1, error is cumulative

Nylon PA12+35% carbon fiber: Excellent mechanical properties, strength can replace metal, low density, high temperature resistance

Imported red wax: Thermal deformation temperature 40-50 degrees, recommended minimum glue thickness 0.5mm, minimum hole diameter 0.8mm; Material hardness 79 degrees (Shore D), tensile strength (stretching) 47Mpa, tensile strength (fracture) 33-40Mpa, bending strength 67Mpa, printing error 100mm±0.1, error is cumulative

Red wax: Thermal deformation temperature 40-50 degrees, recommended minimum glue thickness 0.5mm, minimum hole diameter 0.8mm; Material hardness 50 degrees (Shore D), tensile strength (stretching) 35Mpa, tensile strength (breaking) 30Mpa, bending strength 60Mpa, printing error 100mm±0.1, error is cumulative

Fusible red wax: Suitable for assisting the production process of jewelry and other decorations

TPU soft rubber (30 degrees to 90 degrees) black/white/color: The high temperature resistance index of TPU depends on the hardness. For ordinary 95ATPU, the high temperature resistance index reaches 80℃ for long-term use, and the instant temperature cannot exceed 120℃; high-quality heat-resistant TPU products can withstand high temperatures up to 120℃ and the instant temperature can reach 160℃. If it is soft TPU, it will easily become soft when it encounters too high a temperature, and even cause self-adhesion. The tensile strength can reach 70MPa, and the elongation at break can reach 1000%. Plastic raw materials are easily oxidized in an environment above 70℃, and TPU has good antioxidant ability.

PP: PP plastics are resistant to high temperatures of about 155 degrees. PP materials are polyolefin materials. This material will soften at temperatures above 155 degrees, and the melting point is 165 degrees. PP plastics are thermoplastics made from propylene polymers. They are colorless, odorless solid substances used in the production of clothing, pipelines, chemical containers, etc. Plastic water pipes have a long service life, are resistant to high and low temperatures, and are often used in the construction and decoration industries.

POM: The temperature range of POM is usually between -40℃ and 100℃. In this temperature range, POM has good mechanical properties and rigidity, and is suitable for various engineering applications. POM is highly sensitive to moisture and chemicals, and needs to avoid humid environments and contact with harmful chemicals to ensure the service life and performance of the material.

PEEK: Parts made of high-temperature plastic PEEK can be used at long-term temperatures up to 260°C, and its melting point is about 341°C. PEEK materials are often used in hot water or steam environments and can maintain high levels of physical properties such as flexural strength and tensile strength. Despite the high price of PEEK materials, the added value that PEEK materials bring by providing the possibility of manufacturing parts includes light weight, strength or toughness, and the ability to survive longer in harsh environments. Despite the high price of PEEK materials, the added value that PEEK materials bring by providing the possibility of manufacturing parts includes light weight, strength or toughness, and the ability to survive longer in harsh environments

ULTEM101(PPSU): PPSU plastics have a short-term temperature resistance of up to 220°C and a long-term temperature resistance of 180°C, and can withstand oil temperature environments of 170 to 180°C. High-voltage components must exhibit high dimensional stability and good mechanical properties in the temperature range of -50°C to +160°C, as well as good electrical insulation, high heat aging resistance, excellent fire resistance, and good resistance to chemical corrosion and hydrolysis.

ULTEM9085: Heat resistance exceeds 160℃; unique FDM processing technology gives its surface a distinct layer thickness texture; can be polished, electroplated, painted, and spliced; minimum layer thickness can be 1.2mm; aperture is limited, thin wall > 1mm; suitable for threads; average water tightness;

Stainless steel 316L: The surface has a grainy feel; 316L is widely used in the chemical industry due to its excellent corrosion resistance. 316L is also a derivative steel of 18-8 austenitic stainless steel, with 2-3% Mo added. Based on 316L, many steel grades are derived, such as 316Ti after adding a small amount of Ti, 316N after adding a small amount of N, and 317L after increasing the Ni and Mo content.

Aluminum Alloy ALSI10mg: The surface is grainy; magnesium aluminum alloys are ideal for combinations that require good thermal properties and low weight. They can be machined, spark eroded, welded, micro-peened, polished and electroplated

Brass: The high thermal conductivity and high laser reflection of copper make it difficult to control the forming process of copper powder additive manufacturing technology. At present, the research and application of 3D printing copper lags behind some other common metal materials.

Titanium Alloy Ti6A14V: The surface has a granular feel; good corrosion resistance and thermal stability.

Mold steel 18Ni300: The surface has a grainy feel; 18Ni300 is a maraging steel

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