核主泵用流体静压密封环圆锥面超精密磨削  被引量:3

Ultra-precision Grinding of Conical Surfaces of Hydrostatic Mechanical Seal Rings Used in Reactor Coolant Pumps

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作  者:霍凤伟[1] 冯光[1] 郭东明[1] 

机构地区:[1]大连理工大学精密与特种加工教育部重点实验室,大连116024

出  处:《机械工程学报》2012年第21期183-189,共7页Journal of Mechanical Engineering

基  金:国家重点基础研究发展计划(973计划;2009CB724306);国家自然科学基金(50875037);中国博士后科学基金(2011M500050)资助项目

摘  要:提出采用工件旋转杯形砂轮切入磨削原理来加工核主泵用流体静压密封环圆锥面新方法,对密封环圆锥面的径向轮廓误差随砂轮半径、回转台与砂轮中心距,砂轮俯仰角、砂轮侧偏角的变化规律进行深入分析,发现选择适当的机床结构参数,采用工件旋转杯形砂轮切入磨削原理加工核主泵用流体静压密封环圆锥面时,由磨削原理引入的径向轮廓误差极小,为纳米量级。根据最小径向轮廓误差和最小磨削接触弧长原则确定了核主泵用流体静压密封环圆锥面的超精密磨削实现策略。在工件旋转杯形砂轮切入磨削机床上实现了核主泵用碳化硅密封环圆锥面的高精度、低表面粗糙度磨削,测得周向跳动、径向轮廓误差和表面粗糙度Ra分别为0.16μm、0.15μm和3 nm。Infeed grinding using a rotary table and a cup wheel is proposed to process the conical surfaces of the hydrostatic mechanical seal rings used in reactor coolant pumps.The substantial influence of the wheel radius,the distance between the rotary table and the wheel,the wheel pitch angle and the wheel roll angle on the theoretical radial profile error of the generated conical surface is analyzed thoroughly and comprehensively.A strategy for the implementation of ultra precision grinding of the conical surfaces of the hydrostatic mechanical seal rings used in reactor coolant pumps based on the minimum radial profile error and the minimum grinding contact length is determined.A hydrostatic mechanical seal ring sample made of silicon carbide that can be used in reactor coolant pumps is machined with very high form accuracy and very low surface roughness on an infeed grinding machine using a rotary table and a cup wheel.The circumferential run out,the radial profile error and the surface roughness Ra of the ground silicon carbide ring are measured to be 0.16 μm,0.15 μm and 3 nm respectively.

关 键 词:核主泵 密封环 圆锥面 超精密磨削 面形精度 

分 类 号:TG580[金属学及工艺—金属切削加工及机床]

 

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