逐字搞放置處
14-1
Over the years we have ( ) solver technology.
在过去的几年里我们()解决技术。
From structural, crash safety, thermal, fluid dynamics, system simulation, electro-magnetics.
从结构(分析),撞击安全,热(分析),流体动力学,系统模拟到电磁学。
Our special teams connecting all of these different disciplines through multidisciplinary optimization.
我们的特别团队通过多学科优化将多个学科联结在一起。
We are using simulation technology to driven innovation to create new products.
我们使用模拟技术用在驱动创新上去创造新产品。
The key ( ) are simulation –driven innovation of technology focus on optimization technology first.
他的关键是工艺的模拟驱动创新,首要关注优化技术。
Then, the broad portfolio of physics, and computational performance.
然后是广泛的物理投资组合和计算机分析。
We made our name with ( ) through us years focusing on coming up designers.
我们这些年名为()关注于提拔设计师。
( ) coming obvious ( ) structure optimization.
结构优化()
We still put a lot of energy and ( ) design optimization.
我们投入了许多的精力和()来设计最优化。
So we keep improving and advancing as ( ) contexts so we can do things ( ) simulation.
我们保持提升与进步()
Of course, for they are the motivating industry are noise migration that ( ) are very advanced.
当然,因为我们是激励产业、噪音迁移(纠错?),所以我们是十分先进的。
I think we are the leading technology here of the optimize strategy.
我认为我们的优化策略是这里最领先技术。
Also ( ) we focus a lots on contour simulation.
我们十分关注轮廓模拟。
We have contour simulation optimize contour simulation new context types.
我们有轮廓模拟来优化新环境种类中的轮廓模拟。
( ) drop texting for developing fluid structure dynamics.
()滴状物测试来发展流体结构动力学。
For ( ) airplane ditching and airplane landing.
()用于飞机迫降和飞机着陆。
In ( ) all these multidiscipline technology are multifaceted.
在()里这些多学科技术是多层次的。
( ) transfer analysis be a very complete solution or give you steady state and transaction ( ).
转换分析成为一个非常全面的解决方案,给你稳定的陈述和处理。
One additional focus in multifaceted simulation as materials.
一个例外注重于材料的多层次模拟。
In ( ) we developed extent ( ) to model things like glass break for example.
在()中我们发展()去模拟事物,比如像玻璃的碎裂。
We also ( ) reasonably at position and the product will be multi( ) designed.
我们()位置的合理性,并且产品会多方面()的设计。
Where we can look at the micro structure of the materials and then derive and ( ) the material property.
从哪里我们可以观察材料的微观结构和来源,还有材料的性质。
So we can look at things like ( ), distribution of fibers.
我们也可以观察像()的事物,纤维的分布。
We can look at ( ) progress how the material actually ( ).
我们可以观察材料实际上如何()的进程。
We have really good technology.
我们有非常好的技术。
14-3逐字稿(暫) One of the biggest new capablity is hyperworks fourteen now is a new modeling in some capability hyper mesh most people in manufacture products and many different configureation in those products and they want to keep their CAmodels very much in the sink with the CAD appeal a lot of system so now we introduce in the hyper mesh in abllity to sinkernize directly with the PDM system actually we port the materials with mutiple configureation of the model so that the hyper mesh model has all those configureation that each part of the hyper mesh model can now have mutiple and by just re-configuring the model you can match the configuration that you nornally we know the CADmob we also introduce what is called about a part tentity now hypermesh just like a CAD partentity so what that a lot is abuse if you zap thing though materials and hyper mesh how would you had a CAD system what we can do now is have say what can solve of this normally consist in many different conpoments and shelter parts and you still want a group oppoments of the single part of the management simply hold in so now those conbine exist in one part but you can also have mutiple representation for that part so if you want other representation what you maybe have a different mashidencity you can do that and figure your model according to different type so dissappoint for crash or NVH