1) quick thinning
快速细化
1.
The characteristics of eight-neighbor pixels were studied to solve the problem of double pixels width in the quick thinning algorithm.
针对指纹快速细化算法中存在双像素宽的情况,研究快速细化后像素的8邻域像素值的特征,通过计算8邻域像素值的和以及8邻域中相邻像素间的关系,对快速细化算法进行改进,使细化的结果为单像素宽。
2) quick thinning algorithm
快速细化算法
1.
Based on the advantages and disadvantages of OPTA algorithm and its variants,combined with the system requests on calculating velocity and resources of thinning algorithm,an improvement of quick thinning algorithm is proposed,which still contains the advantages of OPTA algorithm and could be used to get 8-connected thinned image.
根据OPTA算法及其改进算法,结合AFIS对图像细化算法在运算速度和系统资源两方面的要求,提出一种基于快速细化算法并引入OPTA算法优点的改进算法,该算法对指纹二值图像的细化结果满足8连接条件。
3) fast curing
快速固化
1.
Effects of final treatment techniques on the properties of fast curing cement particle board;
后期处理工艺对快速固化水泥刨花板性能的影响
2.
Modified epoxy Structural adhesive fast curing at 70℃;
70℃快速固化改性环氧树脂结构胶粘剂
3.
Synthesis of polymercaptan used as fast curing agent
多硫醇快速固化剂的合成
4) rapid cure
快速固化
1.
A dual initiator system for rapid cure SMC processing was developed and an optimum recipe of the dual initiator system was obtained by investigating the effects of initiator types and their proportions on the cure and shelf life of SMC paste,with the balance of curing time and shelf life of SMC paste achieved.
主要针对片状模塑料(SMC)快速固化引发体系进行了研究。
5) fast slag melting
快速化渣
6) fast-curing
快速固化
1.
Effect of hot-pressing temperature and natural curing time on properties of fast-curing cement particle board;
热压温度和养护时间对快速固化水泥刨花板性能的影响
2.
Progress of fast-curing research of phenol-formaldehyde resin adhesives;
酚醛树脂胶粘剂快速固化研究进展
3.
From 3 aspects, known as preparation of the fast-curing PF resin, production technology of the particle board, and properties of the final product, this article briefly summarized the industrial of production technology for water-proof particleboard with PF resin.
从快速固化胶粘剂的制备、刨花板的生产工艺以及产品性能的测定3方面简要介绍了"耐水刨花板"的研制情况。
补充资料:快速流态化
分子式:
CAS号:
性质:在流化床操作中,逐步提高气速,细粒子层经历固定床、散式膨胀床、鼓泡床、湍动床等状态,与此同时粒子的带出速率也在不断增加。在气速达到某一临界值时,床层密度急剧下降呈稀相。若要维持床密度不变,必须以等同于物料被吹出的速率将物料连续加至床层底部。这一操作区间称之为快速床。快速床内的连续相为稀相,同时存在有絮状的颗粒密集体(cluster),浓相密集体在快速床内不断上下交换。快速床技术已在石油催化裂化、矿石、氢氧化铝、纯碱的焙烧过程中使用。
CAS号:
性质:在流化床操作中,逐步提高气速,细粒子层经历固定床、散式膨胀床、鼓泡床、湍动床等状态,与此同时粒子的带出速率也在不断增加。在气速达到某一临界值时,床层密度急剧下降呈稀相。若要维持床密度不变,必须以等同于物料被吹出的速率将物料连续加至床层底部。这一操作区间称之为快速床。快速床内的连续相为稀相,同时存在有絮状的颗粒密集体(cluster),浓相密集体在快速床内不断上下交换。快速床技术已在石油催化裂化、矿石、氢氧化铝、纯碱的焙烧过程中使用。
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