Study on manufacturing process constraint of feature structures of diamond composite materials fabricated by selective laser melting
Porous diamond grinding tools are a new type tools that can provide a space for chip holding and coolant flowing during the grinding process.selective laser melting(SLM)is an effective method for manufacturing porous dia-mond grinding tools.However,due to the limitations of spot size and layer by layer fabricating process in SLM process,the designed porous diamond tools are difficult to be manufactured accurately.Therefore,it is necessary to study the formability of diamond composite materials feature geometry structures.Based on CuSn20/diamond composites,a series of feature structures such as overhang structures,thin-walled,holes,and sharp angle structures with different fab-ricating directions and sizes were fabricated by SLM technology.The formability,forming errors,and causes of these structures are analyzed.The results show that the optimal formable length of the overhang structure is 1.0~2.0 mm;The minimum formable size of thin wall structures is 0.70 mm;The minimum formable diameter size of hole structures per-pendicular to the fabricating direction is 0.50 mm;The optimal forming diameter size for circular hole structures paral-lel to the fabricating direction is 1.00~4.00 mm;The formable angle of sharp angle structures should be greater than 10°.The forming error of feature structures is mainly affected by the thermal adsorption of laser on composite powder,the diffusion of laser spot heat affected zone,and the weak support of composite powder.This work provide a certain technical reference for the design and additive manufacturing of complex diamond tools.
seletive laser meltingCuSn20/diamond compositesfeature structuresmanufacturing process constraint
国家科技期刊平台
NSTL
万方数据
