FDM HSHT FiberglassMarkforged HSHT Fiberglass Though not as stiff as Continuous Carbon Fiber, Onyx parts reinforced with HSHT are strong at both low and high temperatures. As a result, HSHT reinforcement is best used for parts in high-temperature environments like molds, autoclaves, and others. Max Build Size Min Build Size 5 x 5 x 5 mm Default Layer Height 0.1 mm Optional Layer Heights 0.1 mm Tolerance 卤0.1% (with a lower limit of 卤0.1 mm) Up to 150 鈩 Smooth 鈽呪槄鈽 Detail 鈽呪槄鈽 Accuracy 鈽呪槄鈽呪槄 Rigidity 鈽呪槄鈽 Flexibility 鈽呪槄鈽 Available ColorsWhite
Available Post ProcessSuitable For Functional prototypes and end products, Not Suitable For Complex designs with intricate details, Additional InfoHigh Strength High Temperature (HSHT) Fiberglass is defined by two characteristics: high strength (nearly equal to 6061-T6 Aluminum) and strength in high temperatures. Though not as stiff as Continuous Carbon Fiber, Onyx parts reinforced with HSHT are strong at both low and high temperatures. As a result, HSHT reinforcement is best used for parts in high-temperature environments like molds, autoclaves, and others.
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3D PrinterMaterial Spec Sheet
Fused Deposition Modeling is used to build your design with this material. The principle is simple. You can compare it with a hot glue gun into which you put sticks of glue. The glue is heated up until it melts and is then pushed through a fine nozzle in the front of the glue gun. In an FDM printer, a long plastic wire is used in place of glue. It is fed from a spool to the nozzle where the material is liquefied and 鈥榙rawn鈥 on the platform where it immediately hardens again. The nozzle moves to drop the material at the correct location, drawing your model line by line. When a layer is drawn, the platform lowers by one layer thickness so the printer can start with the next layer. When your model contains overhanging sections, the printer needs to build supporting material. Since the material of the model cannot be deposited in the air, the support material prevents it from falling down. This support material is fed through another nozzle. Afterward, when the model is put into a bath with special soap, the support material dissolves.
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