北京工业大学学报
北京工業大學學報
북경공업대학학보
JOURNAL OF BEIJING POLYTECHNIC UNIVERSITY
2014年
12期
1770-1775
,共6页
发动机%活塞%凹槽%正交试验
髮動機%活塞%凹槽%正交試驗
발동궤%활새%요조%정교시험
engine%piston%groove%orthogonal experimental
针对发动机活塞失效形式,结合活塞工作过程中所受应力的非均匀分布,以 XL-2V 型发动机为试验对象,将均匀排布的减阻耐磨型凹槽、凹坑结构优化变形为非均匀排布形式应用于活塞裙部。为了保证凹槽和通孔卸载活塞环槽集中应力作用的实现,同时使凹槽和通孔不影响活塞裙刚度以加大活塞裙底部变形,在发动机活塞裙部表面以环形形式逐行加工出变深度、变宽度、变间距的宏观凹槽及通孔形态,且槽深、槽宽、槽间距距离活塞顶部越近尺寸越大。运用正交试验方法制定了9种试验方案,选取3因素分别为孔槽分布类型、凹槽深度和凹槽宽度。搭建发动机冷试验台架,对9种凹槽形活塞和标准活塞进行对比试验,以磨损量和功率损耗率为试验结果指标。试验结果表明:凹槽形活塞磨损量平均减少35%、功率最大提高1%;凹槽形分布较其他2种分布类型减阻、耐磨效果更佳;较小的凹槽深宽设计更有助于保证活塞刚度、延长活塞寿命。
針對髮動機活塞失效形式,結閤活塞工作過程中所受應力的非均勻分佈,以 XL-2V 型髮動機為試驗對象,將均勻排佈的減阻耐磨型凹槽、凹坑結構優化變形為非均勻排佈形式應用于活塞裙部。為瞭保證凹槽和通孔卸載活塞環槽集中應力作用的實現,同時使凹槽和通孔不影響活塞裙剛度以加大活塞裙底部變形,在髮動機活塞裙部錶麵以環形形式逐行加工齣變深度、變寬度、變間距的宏觀凹槽及通孔形態,且槽深、槽寬、槽間距距離活塞頂部越近呎吋越大。運用正交試驗方法製定瞭9種試驗方案,選取3因素分彆為孔槽分佈類型、凹槽深度和凹槽寬度。搭建髮動機冷試驗檯架,對9種凹槽形活塞和標準活塞進行對比試驗,以磨損量和功率損耗率為試驗結果指標。試驗結果錶明:凹槽形活塞磨損量平均減少35%、功率最大提高1%;凹槽形分佈較其他2種分佈類型減阻、耐磨效果更佳;較小的凹槽深寬設計更有助于保證活塞剛度、延長活塞壽命。
침대발동궤활새실효형식,결합활새공작과정중소수응력적비균균분포,이 XL-2V 형발동궤위시험대상,장균균배포적감조내마형요조、요갱결구우화변형위비균균배포형식응용우활새군부。위료보증요조화통공사재활새배조집중응력작용적실현,동시사요조화통공불영향활새군강도이가대활새군저부변형,재발동궤활새군부표면이배형형식축행가공출변심도、변관도、변간거적굉관요조급통공형태,차조심、조관、조간거거리활새정부월근척촌월대。운용정교시험방법제정료9충시험방안,선취3인소분별위공조분포류형、요조심도화요조관도。탑건발동궤랭시험태가,대9충요조형활새화표준활새진행대비시험,이마손량화공솔손모솔위시험결과지표。시험결과표명:요조형활새마손량평균감소35%、공솔최대제고1%;요조형분포교기타2충분포류형감조、내마효과경가;교소적요조심관설계경유조우보증활새강도、연장활새수명。
XL-2V type engine is used as the research subject. Failure modes of the engine piston and the stress of the working piston that is non-uniform distribution are considered. Many scientists developed the grooves and pits on the surface of kinematic pair, which were uniform distribution and friction reduction and wear-resisting. This paper optimizes the structures of grooves and pits, which are non-uniform distribution, for acclimatizing movement of engine piston. Grooves and through-holes surrounding the piston skirt of the engine is machined, which have variable-depth variable-width variable-separation. The sizes of depth, width and separation are bigger and closer to the top of piston to unload concentrated stress of piston ring grooves and keeping stiffness of piston skirt not to make enlargement deformation. With the orthogonal experiment method, nine test plans are made. The three experimental factors are hole and groove distribution pattern, groove depth, and groove width. Finally a cold test bench of engine is made and research 9 bionic pistons and standard piston are contrasted. Results show that abrasion loss of grooved pistons is redeced 35% and power is enhanced 1% ; “grooves distribution” is better than the other two distributions on friction reduction and wear-resisting; the smaller grooves' depth & width, the better piston's rigidity and the longer piston's lifetime are.
