粗切削加工 的英文怎麼說
中文拼音 [cūqiēxiāojiāgōng]
粗切削加工
英文
rough machining- 粗 : Ⅰ形容詞1 (長條東西直徑大的) wide (in diameter); thick 2 (長條東西兩長邊的距離寬的) wide (i...
- 切 : 切Ⅰ動詞1 (合; 符合) correspond to; be close to 2 (用在反切后頭 表示前兩個字是注音用的反切)見 ...
- 削 : 削動詞1. (用刀斜著去掉物體的表層) pare [peel] with a knife 2. (乒乓球的一種打法) cut; chop
- 工 : Ⅰ名詞1 (工人和工人階級) worker; workman; the working class 2 (工作; 生產勞動) work; labour 3 ...
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This machine can also perform semi - grinding on simple - shaped irregular glass. when grinding peripheries, coarse grinding, refine gfindlag, and polishing are alternatively, hypofenuses, the angle of the grinder on the bowet - shape wheel can be obliquely adjusted to fit the ground angle for grinding
磨削周邊時,可安裝三個磨輪進行粗精磨和拋光磨削斜邊時安裝碗形磨輪,將磨頭向後傾斜,調節斜面角度,以端面加工切削。Study on the surface roughness in high speed cutting of aluminum alloy
影響鋁合金高速切削已加工表面粗糙度的關鍵因素Firstly, tool - path for rough machining is generated through setting cutting depth, machining allowance and other parameters. interferences are resolved through raising the z - components of the generated cl point according different kind of situations. and then two methods to generate tool - path for finish machining is presented
首先通過設定切削深度和加工余量等參數生成遞歸分割曲面模型的粗加工刀具軌跡,對刀具軌跡生成過程中多種抬刀情況分別進行處理,避免粗加工中的過切干涉。Considering the die - cavity roughing being a 2. 5d cutting, a novel cutting force surface model is created based on orthogonal cutting tests
鑒于模具型腔粗加工常採用2 . 5維加工,提出一種通過正交切削試驗建立切削力曲面模型用於模具型腔粗加工進給率優選的新策略。On the condition of the test, the cutting force of ticp / fe composites was more than which of 45 steel by 60n, and the cutting temperature was higher than which of 45 # steel by 90, and the roughness of machined surface was almost as much as which of 45 # steel. tic ceramic particles enhanced the cutting force and the cutting temperature of ticp / fe composites, but had little effect on the roughness of machined surface. the machining quality of ticp / fe in situ composite was similarity to 45 # steel
在本試驗條件下,原位tic _ p fe復合材料切削加工時的切削力與45 ~ #鋼相比要大60n ,切削溫度要高90 ,加工表面粗糙度與45 ~ #鋼相近; tic陶瓷顆粒使原位tic _ p fe復合材料切削加工時的切削力增大、切削溫度增高,對加工表面粗糙度影響不大;原位tic _ p fe復合材料的可加工性與45 ~ #鋼相當。Then, predicting the optimum performance and validating the optimum cutting conditions by using a confirmation experiment
預測經最優切削參數加工得到的表面粗糙度值,最後通過確認實驗驗證了其正確性。分享友人