Guangxi Hengruite Electrical Co., Ltd. we are infrared heating and ancillary equipment solution provider, providing quality heating solutions for enterprises! We have been providing best-in-class engineered solutions for process heating for over 16years. We have the experience and technical expertise to be your partner in solving your process heating challenges. With a focus on innovation and efficiency. We are committed to providing reliable process heating solutions that improve your business performance and productivity. We are able to minimize product energy loss and consistently deliver a high quality end product, you can contact me if you have the latest heating tube requirements. After continuous research and development and innovation, Henruite factory has developed a new generation of IR infrared medium wave, short wave, carbon wave single (double) hole gold-plated tubes with global leading features, and can tailor perfect solutions for your machines and equipment to meet the processing requirements of various materials. Welcome to consult and purchase! OUR ADVANTAGES: 1.Competitive: Hengruite has helpedlong time of the world’s top 500 companies OEM infrared heating lamps. Such as China Hua Wei,China Dong Fend Motor, Canada ONEX, USA II-VI Group.Our products have exported to 80 countries. 2. Customization: Heat lamps can be customized according to customer requirements. The products are widely used and can meet theheating needs of different customers. 3. Packing: Packing of wooden cases, damage to transport, free replacement. Application of halogen heating lamp in 3D printing preheating processApplying replacement heating elements to 3D printing, this innovative technology has improved the industry process and further promoted the rapid development of 3D printing. Material extrusion is currently the most widely used technology in polymer additive manufacturing or 3D printing. This process, often referred to as fused deposition modeling or fused filament fabrication, has so far been mainly used to 3D print thermoplastics, polymer blends and composites. However, this manufacturing process also has its drawbacks, that is, the functional use of these parts may be limited by mechanical anisotropy, where the strength of the printed parts across consecutive layers in the build direction (z direction) may be significantly lower than in the corresponding plane. Strength (x-y direction). This is primarily due to poor adhesion between the printed layers, which is caused by the fact that the lower layer is below its glass transition temperature before the next layer is deposited, which can be understood as the melting point of similar metals. , but this is a range for plastics. Using halogen infrared quartz heating lamp to increase the surface temperature of the printed layer just before depositing the new material can improve the interlayer strength of the component. In additive manufacturing, a thin layer of powdered material is spread over a building platform inside an industrial 3D printer. Typically, a laser beam fuses the contours together layer by layer based on preconfigured structural data. This makes it possible to fabricate any shape that can be constructed using 3D CAD programs. Expectations for quality and efficiency are increasing. Preheating the powder bed using infrared emitters is a critical step. Thermoplastic polymer powders need to be preheated before laser sintering. The Quartz Infrared Heater Parts provided by Henruite can be precisely customized in terms of power, shape and wavelength according to the material, and can be adjusted according to the actual customer product to obtain the best product effect. Infrared heating has the following advantages: (1) High-efficiency heat source: more than 85% of the input energy is converted into infrared energy. (2) High uniformity: area-type radiation output ensures uniform surface temperature of the material; (3) Long life and stable output: By utilizing the halogen cycle, our lamps are designed to last up to 5,000 hours with almost no loss of infrared output. (4) Low energy consumption: energy consumption is reduced by about 20% compared with the original equipment. (5) Flexible production capabilities: We support customer-specified custom designs and OEM support.

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