High Temp pro 238°C
Dimensional stability, smooth surface and HDT 238°C. This resin is designed to withstand high temperatures and is the perfect choice for a wide range of applications.
PROS
- Suitable for moulds
- Dimensional stability
- HDT 0.45MPa of 238°C
CONS
- Fragile on thin thicknesses
- More expensive than other resins
MAIN FEATURES
- 3D printing process: LSPc (3D resin)
- Tolerance: 0,3mm<100mm; 0,3%>100mm
- Max size: 274x155x400 mm; 10.8x6.1x15.7 in
- Lead time: <2 days
High Temp pro 238°C 3D printing VIDEO GALLERY
Stability and STRENGTH
This 3D resin has good dimensional stability, a smooth surface and enough strength to withstand the mechanical stresses of many applications.
Versatility
Dimensional stability and mechanical strength: this resin is perfect for any project requiring a smooth surface finish and reliable performance. Whether you are shaping your design or creating a product for production, our High Temp Pro 238°C resin will help you get the work done right.
Moulding Applications
High Temp Pro 238°C resin is the ideal choice for many moulding applications. With its high heat deflection temperature of 238°C, this resin is designed to withstand high process temperatures while maintaining dimensional stability and a smooth surface finish.
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COMMENT
High Temperature Pro 238°C resin emerges as a state-of-the-art material with excellent thermal and mechanical properties that break new ground in engineering and manufacturing. Designed to meet the needs of the most demanding applications at extreme temperatures, this resin offers an outstanding combination of strength and dimensional stability. In the context of advanced industrial projects, high-temperature resin has established itself as the key element in the manufacture of high-quality components under challenging thermal conditions, representing a significant breakthrough in materials innovation.
This innovative material stands out in advanced industry and manufacturing, where its ability to overcome thermal challenges becomes a determining factor. This 3D-printed resin is at the core of ambitious projects, offering a reliable, state-of-the-art solution for those seeking to push the boundaries of conventional limits. In an innovation-driven world, this resin represents a crucial step forward, paving the way for successful projects that require strength and precision in high temperature conditions.
Pros
Suitability to moulds: High Temperature Pro 238°C resin is distinguished by its remarkable mould adaptability, giving it a leading role in the production of intricate and detailed parts. Its ability to maintain the desired shape, even under high thermal stress, makes it essential for the production of high-quality moulds. The precision and reliability it offers in this context position it as a key choice for projects requiring the highest form accuracy.
Dimensional stability: Another crucial strength of this 3D resin is its exceptional dimensional stability. The ability to preserve the intricate details of designs, especially under extreme thermal conditions, ensures the production of high-quality and durable products. This feature not only contributes to the precision of shapes, but also ensures greater part longevity, providing a critical element of reliability in demanding industrial environments.
High mechanical strength: High-temperature resin is further distinguished by its impressive mechanical strength. This characteristic makes it particularly suitable for moulding applications requiring strength and durability. The ability to maintain its structural integrity even under intense mechanical stress places it among the ideal options for industrial projects requiring reliable performance over time.
Exceptional Heat Deformation Temperature (HDT): One of the key elements that makes this high-temperature 3D resin a top choice is its exceptional Heat Deformation Temperature (HDT) of 0.45MPa at 238°C. This value places it among the best-performing resins on the market, enabling high temperature resistance that is critical in industries such as automotive and aerospace. Its ability to maintain stability and structural integrity under extreme thermal conditions significantly broadens its application possibilities in advanced industrial settings.
Cons
Fragility on thin thicknesses: A crucial aspect to consider when evaluating High Temperature Pro 238°C resin is its possible fragility on thin thicknesses. Although this resin offers considerable mechanical strength in general, it is important to recognise that it may exhibit some brittleness on thin thicknesses. This requires careful handling in projects involving more delicate details, as the resin may not be the optimal choice for applications requiring uniform strength across the entire surface.
More expensive than other resins: Another factor to consider is the cost associated with this resin, which may be higher than other options available on the market. While this resin certainly offers advanced performance and superior features, its cost could be a limiting factor for some projects. It is essential to carefully assess the available budget and compare the costs with the benefits offered by the resin before making a decision. However, it is important to note that the investment in this resin may be justified by the superior quality of the results that can be achieved, ensuring superior durability and precision in advanced industrial projects.
Applications of high temperature Pro 238°C resin
Great adaptability to diverse applications: High-temperature 3D resin stands out for its extraordinary versatility, making it an ideal choice for a wide range of industrial applications. From the initial prototyping phase to the most advanced area of production, this resin proves to be a perfect fit for the needs of complex and diverse projects. Its ability to offer a synergistic combination of dimensional stability, smooth finish and mechanical strength makes it an indispensable tool for projects requiring eclectic performance in various industrial contexts.
Versatility in prototyping: In the context of prototyping, resin proves particularly valuable. Its adaptability enables the creation of detailed and accurate prototypes, ensuring that designs under development can be visualised with the utmost precision. The dimensional stability of resin is essential at this stage, as it ensures that prototypes are accurate representations of future productions, facilitating decision-making processes and improving efficiency in the development path.
Applications in advanced manufacturing: Moving into the production phase, High Temperature Pro 238°C resin retains its relevance by offering an excellent combination of features. Its dimensional stability is vital for ensuring the consistency and accuracy of large-scale parts. The smooth finish contributes to the production of high quality end products, while mechanical strength ensures the durability and reliability of manufactured components. In this context, resin proves to be a versatile resource, providing superior results in a variety of production scenarios.
Excellence in moulds: Particularly remarkable is the adaptability of this high-temperature resin to moulds. This resin stands out for the precision it offers, ensuring that moulds are made with sharp and accurate detail. The importance of this feature emerges especially in applications requiring complex and intricate moulds, such as in the automotive or aerospace industries. Resin therefore becomes a key product for manufacturing components that require meticulous precision and impeccable quality.
Conclusion
In conclusion, High Temperature Pro 238°C resin stands as a landmark in materials innovation, with thermal and mechanical properties that place it at the top of the engineering and manufacturing landscape. Its targeted design to meet the needs of the most demanding applications at extreme temperatures makes it an unparalleled solution. In the context of advanced industrial projects, this resin proves to be a key catalyst for the creation of high-quality components, representing a significant step forward in materials advancement.
High-temperature 3D resin shines with its mould adaptability, ensuring precision and reliability in the production of intricate parts. Its dimensional stability, exceptional mechanical strength and considerable heat distortion temperature at 238°C place it among the key resources for advanced industrial applications. While it is important to consider the disadvantages of brittleness in thinner thicknesses and potentially higher cost, the investment in this resin proves to be justified by the superior quality of the results achievable. In an innovation-driven landscape, this 3D-printed resin paves the way for successful projects requiring strength and precision in high temperature conditions, establishing itself as a crucial choice for technological and industrial advancement.
"I recently received some of my pieces made from this resin from Weerg and I am delighted! The heat resistance allows my pieces to remain functional in very harsh environments. I am amazed by the finish and performance - a great material!"
HIGH TEMP PRO 238°C PROPERTIES
Tensile breaking load | 75 MPa |
Modulus of elasticity | 3192 MPa |
Elongation at break | 3% |
Flexural modulus | 3168 MPa |
HDT 0.45 MPa | 238°C |
Izod impact resistance | 14.6 J/m |
"When I decided to try a resin that could withstand the high temperatures of the moulding process, I was thrilled when I discovered this one. It not only offers good mechanical strength, but also provides superior dimensional stability and a smooth surface. The thermal deflection temperature of 238°C ensures that my designs look their best even in extreme use."
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