Presentation of a newly developed method for the evaluation of the bonding durability of sorbent particles to meltblown composite nonwovens. Author: C. Nowicka.
Master of Science thesis about an investigation of the role of fiber crimp and other processing conditions on needlepunch fabrics, involving possible interactions between fiber crimp, carding parameters, crimp retention and their relation to fabric properties and processability on nonwovens equipment. Author: V.M. Datla.
Master of Science thesis exploring the potential application and utilization of highloft nonwoven fabrics in rain gutters instead of more expensive alternatives such as gutter guards and screens. Author: Selcuk Filiz.
Master of Science thesis about research conducted in order to develop a composite of sufficient strength from glass fibers, using low melt polyester or bicomponent fibers as binder fibers for nonwoven spunlace preforms. Author: Neha Vaidya.
Master of Science thesis on fiber dispersion in water to the wet-lay nonwovens industry, and the tools required to develop apparatus and analysis methods capable of predicting whether a given fiber, fiber blend or white water chemistry will provide a uniform, defect-free wet-laid nonwoven fabric. Author: Amit Jayachandran.
Thesis about research conducted to assess thermoforming nonwoven webs into a three dimensional fiber network without the use of resin or binders. Author: Gregory A. Grissett.
Evaluation of the use of scrap textiles by manufacturers of textiles and nonwovens in Massachusetts, USA. From the Chelsea Center for Recycling and Economic Development. Author: Edward Boisson.
Peer reviewed article about a new method for stripping turkey feather fibers from the quill, and a report on current research into developing latex bonded nonwovens containing feather fibers for erosion control applications. Authors: Brian R. George and others.
Technical paper discussing the electrochemical properties of a nonwoven electrospun carbon nanofiber web for supercapacitators. Authors: C. Kim and K.S. Yang.
Technical paper about a study of the surface energy and wettability, strength, fiber diameter, and microscopic structure of meltblown and electrospun nonwovens from polyamide and polyurethane. Authors: Peter T. Tsai and others.