阐明了热瞬态密封问题求解的关键是给出螺栓载荷的热态增量;
It expounds that the key of solving thermal transient sealing problem is to obtain the thermal increment of stud-bolt loading.
通过局部模型的有限元分析,总结出一些螺栓载荷的变化规律。
The regulation of bolts' load distribution is given out by the finite element analysis of the local model.
采用密封设计准则,通过试验确定了金属缠绕式垫片的垫片系数,在此基础上,按照PVRC新方法对法兰螺栓载荷进行了计算。
The sealing design criteria to measure the factors of spiral wound gasket were adopted, based on this bolt loads of flange can be determined by using the new PVRC method.
这使螺栓在承受预紧力和工作载荷作用的同时,还要承受附加弯矩的作用。
This makes the bolt bear the preload and work load, but also bear the role of additional bending moment.
可能受到振动、波动载荷、冲击载荷或动力载荷的内部螺栓应加以保护防止松动。可采用双螺母、防松动垫圈、点焊等。
Internal bolts subject to vibration, fluctuating load, impact load or dynamic load shall be protected against loosening. Double nuts, unti-loose washers, tack welding, etc. shall be used.
滑动轴承座由上盖、底座、剖分轴瓦(铝青铜),安装螺栓组成,主要承受径向载荷。
Plain Bearing Block Housings are made up of cap, base, aluminum bronze bushing and installing bolts, which mainly bear radial load.
滑动轴承座由上盖、底座、剖分轴瓦(铝青铜),安装螺栓组成,首要承受径向载荷。
Plain Bearing Block Housings are made up of cap, base, aluminum bronze bushing and installing bolts, which mainly bear radial load.
对螺栓拉伸强度计算的载荷系数法作了进一步改进。
The load coefficient method of bolt on tensile strength calculation was improved.
准确计算冲击载荷的大小对于螺栓的使用安全具有重要意义。
Exact calculation of the impacting load on bolt is of vital importance to the safety of the bolt.
根据螺栓最大载荷,得出了螺栓的强度条件和设计方法,并举实例作了计算。
And according to the maximum load on the bolt, the method for designing the bolt is worked out, and an example of calculation is presented.
将概率统计方法引入到受轴向变载荷作用的螺栓联接的可靠性设计中,并对汽车衡用液力加法器联接螺栓的可靠性计算进行了分析,给出了例证。
With application of probability calcate method, analyzed the reliability of bolt for hydraulic pressure addition device in automobile weighing apparatus and its example are provided.
预载荷高强度结构螺栓连接副-第4部分:HV系统-连接副的螺栓和螺母。
EN14399-4:2005 High-strength structural bolting assemblies for preloading-Part 4: System HV-Hexagon bolt and nut assemblies.
本文论述了连杆螺栓联接松动的机理,并指出横向交变动载荷是使螺纹松动的主要因素。
The mechanism of self-loosening of con-rod bolts is discussed. It was found that trans-verse cyclic load is the most important factor affecting self-loosening of connecting rod bolts .
本文论述了连杆螺栓联接松动的机理,并指出横向交变动载荷是使螺纹松动的主要因素。
The mechanism of self-loosening of con-rod bolts is discussed. It was found that trans-verse cyclic load is the most important factor affecting self-loosening of connecting rod bolts .
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