英语翻译A new breed of micro-machining systems called micro/meso-scale machine tools (mMTs) are now evolving [1–4]with the goal of creating micron-scale features with10_3–10_5 relative accuracies (error divided by featuresize).Among the advan
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英语翻译A new breed of micro-machining systems called micro/meso-scale machine tools (mMTs) are now evolving [1–4]with the goal of creating micron-scale features with10_3–10_5 relative accuracies (error divided by featuresize).Among the advan
英语翻译
A new breed of micro-machining systems called micro/
meso-scale machine tools (mMTs) are now evolving [1–4]
with the goal of creating micron-scale features with
10_3–10_5 relative accuracies (error divided by feature
size).Among the advantages of mMTs,the motor size
requirement is reduced by the third power of the machine’s
characteristic length resulting in high specific-force and
increased acceleration and jerk capabilities.This is
important since acceleration requirements are one to two
orders of magnitude larger at the micro-scale than the
macro-scale due to unique cutting mechanics and nonlinear
scaling of motion parameters (distances,feed rates
and accelerations).These acceleration requirements can
degrade machine performance due to limiting factors
associated with controller servo update frequency and
closed-loop bandwidth.As the mMT paradigm continues
to evolve,there is a need to formally address performance
evaluation methods for these machines,taking unique
motion parameter considerations into account.
Existing performance evaluation methods for macroscale
machine tools include measurements of geometric
accuracy and surface finish of machined artifacts [5]
(ISO10791-7 [6]),the evaluation of bi-directional positioning
errors [7] (ISO 10791-4),vibration [8] and stiffness.
Given that machined artifact evaluations are impractical
for mMTs due to metrology limitations at the micro-scale,
some mMT researchers have used other evaluation
methods involving feedrates below 3 mm/min [9,10] and
positioning repeatability moves of 300 mm [11],parameters
that fall well outside the proper mMT regime [12] and
result in unrealistic performance evaluations of micromachining
operations.Furthermore,these tests do not
emphasize the large mMT acceleration magnitudes required
to avoid the high forces,excessive tool wear and
poor surface finish encountered at low feedrates due to the
minimum chip thickness effect [13].
Existing performance evaluation methods involve acceleration
capability as a consequence of the test procedure
rather than as the foundation of the test.For example,
英语翻译A new breed of micro-machining systems called micro/meso-scale machine tools (mMTs) are now evolving [1–4]with the goal of creating micron-scale features with10_3–10_5 relative accuracies (error divided by featuresize).Among the advan
一个新品种的微加工系统的所谓微/
中尺度机床( mmts )现正演变[ 1-4 ]
与目标是创造微米尺度特征与
10_3 - 10_5相对精度(误差除以功能
大小) .其中的优势mmts ,汽车大小
要求是,减少了第三的权力机器的
特征长度,导致高的具体力和
增加了加速度和挺举的能力.这是
重要的,因为加速度的要求是1点59分
订单规模较大的在微观尺度比
宏观调控的规模,由于独特的切割力学及非线性
结垢运动参数(距离,饲料利率
和加速度) .这些加速度的要求,可以
降解机性能,由于制约因素
与伺服控制器的更新频率和
闭环系统的带宽.至于市场失当行为审裁处的范式继续
演变,有必要正式地址的表现
评价方法的这些机器,以独特的
运动参数的因素考虑在内.
现有的业绩评价方法macroscale
机床,包括测量几何
精度和表面光洁度的加工文物[ 5 ]
( iso10791 - 7 [ 6 ] ) ,评价双向定向定位
错误[ 7 ] (国际标准化组织10791-4 ) ,振动[ 8 ]和刚度.
鉴于加工伪评价是不切实际的
为mmts由于计量的限制,在微观尺度,
一些市场失当行为审裁处的研究人员采用其他评价
方法涉及feedrates下面3毫米/分钟[ 9,10 ]
定位重复性动作,300毫米[ 11 ] ,参数
属于以及以外的适当的市场失当行为审裁处制度[ 12 ]和
结果在不切实际的考绩微
行动.此外,这些测试不
强调大市场失当行为审裁处加速度程度的要求
为了避免高的力量,过度的刀具磨损和
穷人的表面光洁度所遇到的低feedrates由于该
最低晶片的厚度效应[ 13 ] .
现有的业绩评价方法涉及加速度
能力,作为一个后果,测试程序
而非为基础的测试.举例来说,