



جهاز عرض DLP عالي الدقة بالأشعة فوق البنفسجية SM9-NS للطباعة ثلاثية الأبعاد على مقياس الميكرون والنانوي
جهاز عرض DLP بالأشعة فوق البنفسجية عالي الدقة 3.78 ميكرومتر للطباعة ثلاثية الأبعاد على مقياس الميكرون والنانوي
يمكن استخدام جهاز عرض الأشعة فوق البنفسجية DLP عالي الدقة 3.78 ميكرومتر هذا بشكل أفضل في تطبيقات مثل الطباعة ثلاثية الأبعاد على مقياس الميكرون والنانوي.
جهاز عرض الأشعة فوق البنفسجية عالي الدقة (3.78 ميكرومتر) بتقنية DLP مصمم للطباعة ثلاثية الأبعاد على مقياسي الميكرون والنانو. تم اختباره على مجموعة متنوعة من الطابعات ثلاثية الأبعاد، ويمكن استخدامه في مجالات الطب والأحياء والعلوم والتصنيع. يساعدك على تحقيق طباعة عالية الدقة على مقياسي الميكرون والنانو.
- طباعة ثلاثية الأبعاد بالميكرون أفضل: لديها القدرة على عرض مكونات حساسة للضوء صغيرة جدًا ومواد ختم مباشرة، مما يساعدك على تحقيق جودة أفضل لتطبيقك.
- عمر افتراضي وموثوقية مثالية: تم تصميم جهاز عرض الأشعة فوق البنفسجية DLP بدقة 3.78 ميكرومتر للطباعة ثلاثية الأبعاد على نطاق النانو من مكونات عالية الجودة تسمح بعمر طويل وموثوقية وكفاءة في التشغيل.
- أداء بصري ممتاز: يوفر جهاز عرض مصفوفة الأشعة فوق البنفسجية DLP عالي الدقة 3.78um للطابعة ثلاثية الأبعاد ميكرون أداءً بصريًا ممتازًا مع سطوع عالي ودقة ممتازة ومجموعة متنوعة من الميزات الأخرى لجعل تجربة الطباعة ثلاثية الأبعاد الخاصة بك أفضل.
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جهاز عرض DLP عالي الدقة بالأشعة فوق البنفسجية SM9-NS للطباعة ثلاثية الأبعاد على مقياس الميكرون والنانوي
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FAQs
Please read our FAQs page to find out more.
What transportation method do you use?
All our products are shipped via international express services, such as DHL and FedEx,? completely free of charge
What is DLP 3D printing, and how does it work?
DLP 3D printing is a resin-based additive manufacturing technology that uses light to cure liquid photopolymer layer by layer. It involves projecting digital images onto a vat of liquid resin, where the exposed resin hardens to form each layer of the 3D object.
How does DLP 3D printing differ from other 3D printing technologies?
DLP 3D printing differs from other technologies such as FDM (Fused Deposition Modeling) in its use of light to cure resin, which allows for faster and more precise printing. It also typically offers higher resolution and smoother surface finishes.
Why are UV projectors critical in DLP 3D printing?
UV projectors are critical in DLP 3D printing because they emit the ultraviolet light that cures the resin. The quality, speed, and reliability of the printing process depend heavily on the performance of the UV projector.
What factors should be considered when selecting a UV projector for DLP 3D printing?
When selecting a UV projector, factors to consider include wavelength, resolution, LED lifespan, controller compatibility, and mechanical integration. The ideal projector should match the specific needs and requirements of the DLP 3D printing system.
What are the system requirements for DLP 3D printing?
System requirements for DLP 3D printing include a compatible UV projector, resin vat, build platform, and control system. Specific hardware specifications, such as resolution and interface compatibility, should also be considered.
How do I connect and configure a DLP 3D printing system?
Connecting and configuring a DLP 3D printing system typically involves connecting the UV projector to a PC via USB, launching the manufacturer's proprietary configuration software, and setting up the printer parameters, such as layer thickness and exposure time.
What is "pixelation" in DLP 3D printed models, and how can it be addressed?
Pixelation" refers to the appearance of tiny square or grid-like patterns on the surface of DLP 3D printed models. It can be addressed by increasing the resolution of the UV projector, adjusting the light curing parameters, or optimizing the print path.
What role do TIR prisms play in DLP 3D printing, and why are they important?
TIR (Total Internal Reflection) prisms play a critical role in DLP 3D printing by precisely redirecting light from the micro-mirror arrays to the projection optics. They maintain polarization and ensure that the light is evenly distributed across the resin vat, which is essential for high-quality printing.
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