亲水性疏水性织物动态热湿舒适性比较研究

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。研究表明：在动态条件下由于皮肤要经历干燥—出汗—蒸发—干燥、织物要经历干燥—吸湿—放湿—干燥的过程，此时，亲水性的吸湿性好的织物对汗液的蒸发起了阻碍作用，因此动态条件下使用疏水性的织物比使用亲水性的织物更趋合理。     

Study on the Factors to Influence Dynamic Heat - moisture Comfort of Summer Clothing Fabrics

In this paper, the factors to influence the dynamic heat - moisture comfort of summer clothing fabrics have been studied. It is pointed out that, when the wind speed outside is high, or the air permeability is very good, the sweat of human body will evaporate mainly through turbulent diffusion. Because of the rapid sweat evaporation, human body will feel cold, and then, the difference in temperature and humidity of the micro - climatic section will be very slight. On the contrary, when the wind speed outside is slow or the air permeability is unsatisfactory, the sweat of human body will evaporate mainly through molecular diffusion, and in this case, the humidity of the micro - climatic section will be depended on the hygroscopicity of the fabric, that' s to say, the better the hygroscopicity, the lower the humidity. It is difficult for pure wool fabric to loss heat because of its giving out much heat during the course of moisture - absorption in the initial stages of sweating. For pure polyester fabric,     

Study on Properties of Dynamic Heat-Moisture Transfer of Summer Fabrics

The skin heat loss(heat flow)of summer fabrics duringthe course of sweating--evaporating--drying is mea-sured by an apparatus specially made for the purpose.Itis pointed out that:the dynamic heat-moisture comfortcan be described by evaporating rate or time required fordrying out of a certain amount of sweat.The evaporat-ing rate is influenced by the hygroscopic property andthickness of the fabric,the larger the hygroscopicity ofthe fabric with the same thickness,the smaller the evap-orating rate of the perspirated sweat.     

毛/涤混合絮保温性能测试研究

通过对自制不同混合比的毛／涤混合絮的压缩性能及保温性能测试分析后，认为毛／涤混合絮的保温性能略优于纯毛絮，从保温角度看可以使用毛／涤混合絮取代纯毛絮，以降低生产成本．     

超声波缝合涤/棉混纺机织物缝口的力学性能

通过定速拉伸超声波缝合涤/棉混纺机织物缝口,比较不同因素组合下的缝口力学性能,揭示超声波花轮压力、花轮速度、输出功率与涤/棉混纺机织物缝口力学性能的关系.研究结果表明:超声波花轮压力越大、花轮输送速度越小、超声波功率越大,织物缝口的力学性能越好.缝口断裂强力、断裂伸长率、断裂功与提出的超声波缝合影响因子(压力×功率/速度)呈显著正线性相关,该影响因子可以用来表征超声波缝合织物缝口的力学性能,运用该影响因子可简化超声波缝纫机的调节操作过程.     

An Investigation on Properties of PU/PVC Blended Porous Films

Structure and properties of PU/PVC blended film are fnvestlgated in the work. The experimental results show that the PU/PVC blended film has a multiplex poroslty strueture, and their structure and properties vary with PVC content in the blended film. The correlation and regresslon between the properties and PVC content are listed in the paper.     

夏季服用织物动态热湿舒适性的影响因素研究

利用自制的织物动态热湿性能测试仪测定了不同透气性和不同原料的夏季服用织物在皮肤干燥-出汗-蒸发-干燥的过程中的皮肤热损失、微气候区温湿度变化的情况,研究了影响夏季服用织物动态热湿舒适性的因素,指出在外界风速较大或织物的透气量较大时,汗液蒸发是通过紊流扩散进行,由于汗液的快速蒸发,可能使人体产生冷感,此时不同织物的微气候区温湿度差别很小,当外界风速小或织物的透气性小时,汗液的蒸发通过分子扩散进行,此时微气候区的湿度主要受织物吸湿能力的影响,吸湿能力较强时湿度低,纯涤织物在出汗后,由于微气候区湿度较高,将使人产生闷热感,在出汗结束后降温较多可能产生冷感,不宜作为夏季服用织物,纯毛织物因吸湿放热多在出汗初期升温较高,不利于散热,夏季以穿着纯棉、涤棉、毛涤混纺织物的服装为宜.     

Study on the Handle of Keratin Transgenic Cotton Fabric

IntroductionImprovingthebreedofcotton ,akindofprincipaltextilerawmaterial,withtransgenictechnology ,hasbeenemphasizedforaverylongtime .However,researchanddevelopmentontransgeniccottonallovertheworldaremainlyfocusedondisease resistantandinsect resistantproperties ,whiletheresearchonimprovingthequalityofcottonfiberwithtransgenictechnologyisseldomcarriedout[1] .Nowresearchershaveinoculatedthegeneofanimalkeratinintocottonfiberwithtransgenictechnologyandproducedthekeratintransgeniccotton ,inthehope…     

Study on Dynamic Heat-moisture Transfer Properties of Summer Fabrics Using Microclimatic Method

The temporature and humidity of the microclimatic zone of summer fabrics in the course of sweating - evaporating -drying were measured with an apparatus specially made for the purpose. It is pointed out that temperature and humidity changes in quantitative perspiration evaporation process in the microclimatic zone can express the dynamic heatmoisture comfortability. Characteristic values include temperature decline speed, temperature rising speed, humidity rising speed, humidity balance value, and humidity decline speed. Fabrics with good air permeability are beneficial to improving comfortability of summer fabrics, while temperature rising speed and humidity decline speed in the microclimatic zone of thick and heavy fabrics with good hygroscopicity are relatively slow. Through comparing fabrics‘ dynamic heat-moisture curves obtained respectively with Microcllmatic Method and Heat Loss Method, the two methods are identical essentially.     

Microwave Irradiation Graft Copolymerization of Butylmethacrylate (BMA) onto Wool Fabrics

Butylmethacrylate(BMA) was grafted onto woolen fabrics by microwave Irradiation In the presence of catalyst ((NH4) 4S2O8) .Various parameters of graft- copolyme-rlzation reaction, namely time of reaction, microwave intensity, catalyst and monomer concentration, were optimized . The graft - copolymerization was also compared with conventional heating graft- copolymerization at the same condition, it showed microwave irradiation could Improve the reactivity of the monomer. The moisture regain decreased as graft add - on increased, the strength of the grafted fabric decreased as graft add - on increased , but the strain increased hi some degree. The infrared spectrum showed an additional peak at 1700 cm-1, confirming ester carbonyl groups of the monomer.