2) dynamic heat-moisture comfort
动态热湿舒适性
1.
Taking pure wool fabric as a representative of hydrophilic fabrics and pure polyester fabric as a representative of hydrophobic fabrics, we have studied the dynamic heat-moisture comfort of both fabrics by quantitative perspiration evaporation method with fabric dynamic heat-moisture comfort tester, and theoretically analyzed the difference between the two fabrics.
以纯毛织物作为亲水性织物的代表、以纯涤纶织物作为疏水性织物的代表,利用织物动态热湿舒适性能测试仪,采用定量汗液蒸发的方法,研究了两类织物的动态热湿舒适性能,并对两者的差异进行了理论分析。
3) wet comfort
湿舒适性
1.
Fuzzy evaluation of wet comfort of light weight knitted fabric under slightly sweated condition;
微汗状态下薄型针织物湿舒适性的模糊综合评价
2.
This paper is mainly concerned with wet comfort of Coolmax fabric.
对Coolmax织物、棉、涤纶、涤棉织物的芯吸效应、保水率、干燥率、透湿性、透气性进行了测试分析;并通过人体穿着试验对服装的湿舒适性进行了评价;最后利用灰色聚类分析对6种织物的湿舒适性能做了综合评价。
3.
By carrying out instrumental tests on the fabric properties and subjective wear trials, the wet comfort of women's corsets was studied in this dissertation.
本论文通过对连身文胸用面料性能的客观测试和对服装进行穿着试验,研究了连身文胸的湿舒适性。
4) thermal and moisture comfort
热湿舒适性
1.
Application of gray system theory in evaluation of thermal and moisture comfort of bast fiber fabrics;
灰色理论在麻织物热湿舒适性研究中的应用
2.
Model of thermal and moisture comfort evaluation of bamboo fiber fabric based on grey correlation degree
竹原纤维织物热湿舒适性的灰色关联评价模型
5) heat-moisture comfort
热湿舒适性
1.
Application of fuzzy mathematics comprehensive assessment in heat-moisture comfort evaluation of fabric;
模糊数学综合评判法在织物热湿舒适性评价中的应用
2.
Objective and subjective evaluation on the influence of neckline of female's summer clothing on heat-moisture comfort
领部开口量对女夏装热湿舒适性影响的主客观评价
3.
By testing the properties of heat-moisture comfort of several fabrics processed by functional finishing and using rank analysis to explore the effect of functional finishing on heat-moisture comfort of fabrics,the result shows that fuctional finishing may affect heat-moisture comfort of fabrics.
通过对几种常见机织布进行功能性整理的热湿舒适性能指标测试,并利用秩位法探讨功能性整理对织物舒适性能的影响。
6) thermal-wet comfort
热湿舒适性
1.
Applied indexes of thermal-wet comfort textiles in wearing;
纺织品穿着热湿舒适性的应用指标
2.
A Study on Thermal-Wet Comfort of Fabric and Clothing with New-typed Regenerated Fiber;
新型再生纤维面料及服装的热湿舒适性研究
3.
At last, a synthetic evaluation of thermal-wet comfort of the 4 kinds of fibred fabrics was conducted by means of gray clustering analysis.
通过对大豆蛋白纤维织物及类似风格的棉、毛、丝织物的导热性、保暖性、冷感性、透湿性、输水性、润湿性及透气性的测试分析,建立了对大豆蛋白纤维织物热湿传递性能的较全面的认识;并利用灰色聚类分析评价系统对前述4类织物的热湿舒适性能做了综合评价。
补充资料:态-态反应性散射截面
分子式:
CAS号:
性质:设有一态-态反应A+BC(υ,j)=AB(υ′,j′)+C,其中υ、υ′、j、j′分别为反应物和产物的振动量子数和转动量子数。根据微分反应截面σr的定义,则σr(υ、j︱υ′、j′)应为单位时间单位立体角中散射的具有υ′、j′能态的分子数占散射截面的分率。态-态反应性散射截面即其积分态-态反应截面Sr(n´∣n,g)=(n´∣n,g,θ) dΩ,n表示内部量子态,Z为相对速率。
CAS号:
性质:设有一态-态反应A+BC(υ,j)=AB(υ′,j′)+C,其中υ、υ′、j、j′分别为反应物和产物的振动量子数和转动量子数。根据微分反应截面σr的定义,则σr(υ、j︱υ′、j′)应为单位时间单位立体角中散射的具有υ′、j′能态的分子数占散射截面的分率。态-态反应性散射截面即其积分态-态反应截面Sr(n´∣n,g)=(n´∣n,g,θ) dΩ,n表示内部量子态,Z为相对速率。
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