1) transferring molding
传递模法
2) flow molding
传递模压法
3) fuzzy transmission closure
模糊传递闭包法
1.
This paper describes the procedures of fuzzy transmission closure and fuzzy c-means, and we also cluster a series of noise targets with the two methods.
本文详细介绍了模糊传递闭包法和模糊C均值法的计算步骤,并分别用这两种方法对一组噪声目标进行了聚类,最后对两种聚类方法进行了比较。
4) Model transfer
模型传递
1.
Model transfer was studied by cross-correlation in near infrared spectrum.
采用互相关分析,研究近红外光谱的模型传递问题。
2.
In this paper, the convenient method for model transfer was studied and its effect was evaluated.
模型传递是化学计量学的研究热点之一,是数学算法走出实验室所必须解决的一个瓶颈。
5) Calibration transfer
模型传递
1.
Progress in calibration transfer of near-infrared multivariate model
近红外多元校正模型传递的进展
2.
Calibration transfer in multivariate calibration is one of the most important and key issues in near-infrared spectral analysis technology.
模型传递问题是近红外光谱分析技术中一个关键的共性基础技术问题。
3.
The statistical method of Procrustes analysis ( PA) was introduced to solve the problen of calibration transfer from near infrared (NJR) spectrometers.
使用普鲁克分析(Procrustes analysis ,PA)统计学方法解决多元校正中的模型传递问题,并研究了 PA算法中主因子数及标样数对传递结果的影响。
6) transport model
传递模型
1.
Combining the Voigt creep model of viscoelastic solid and Flory - Huggins mixing model which are used to calculate the Gibbs free energy contributed by creep of polymer and mixing of polymer and penetrants, respectively, a transport model of penetrants in polymer membrane was established.
用Voigt蠕变模型和Flory-Huggins混合模型分别计算溶剂在高分子膜中吸收和解吸过程高分子的蠕变及与溶剂混合的吉氏函数变化,结合质量守恒建立了一个小分子在玻璃态聚合物中吸收和解吸的传递模型,模拟计算结果和对实际系统的吸收和解吸曲线的关联和预测结果表明,模型能很好地描述实验中常遇到的S形吸收曲线,并能根据吸收曲线的实验信息预测相应的解吸曲线。
2.
A transport model of penetrants in glassy polymer membranes has been established.
建立了小分子在玻璃态高分子膜中吸收和解吸的传递模型。
3.
Based on creepy transport model of single solvent in polymer membrane, a transport model of mixed solvents in polymer membrane was presented by considering the coupling between mixed solvents.
以单溶剂在高分子膜中的蠕变传递模型为基础,通过考虑溶剂间的耦合作用对溶剂在高分子膜中传递过程的影响,建立了混合溶剂在高分子膜中传递的蠕变模型。
补充资料:传递模塑
制造热固性塑料制品常用的塑料加工方法,也用于橡胶加工。热固性塑料或橡胶料(可以先行预热)在加料室内加热、熔融(图a),再在加压下进入加热的闭合型腔内(图b),经过固化后(或硫化),脱模即得制品。
传递模塑与模压相仿,都借助于压机,但又有注射成型的特点,模具设有浇口和流道。
这种方法要求热固性塑料,在未达到固化温度以前具有较大的流动性,而达到固化温度后又具有较快的固化速率,如酚醛树脂、三聚氰胺-甲醛树脂和环氧树脂等。用于橡胶制品加工时,胶料必须流动性好,硫化快。此法与模压相比,其优点是固化较均匀,生产周期短,尺寸精确度好,飞边修饰较易,嵌件和芯子不易变形,特别适于生产镶嵌件的制品。缺点是模具费用较大,模腔、浇口、流道中剩余料无法回收,故原材料单耗稍高。
传递模塑与模压相仿,都借助于压机,但又有注射成型的特点,模具设有浇口和流道。
这种方法要求热固性塑料,在未达到固化温度以前具有较大的流动性,而达到固化温度后又具有较快的固化速率,如酚醛树脂、三聚氰胺-甲醛树脂和环氧树脂等。用于橡胶制品加工时,胶料必须流动性好,硫化快。此法与模压相比,其优点是固化较均匀,生产周期短,尺寸精确度好,飞边修饰较易,嵌件和芯子不易变形,特别适于生产镶嵌件的制品。缺点是模具费用较大,模腔、浇口、流道中剩余料无法回收,故原材料单耗稍高。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条