Nylon 6.6
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Nylon 6.6
Home / Precision Balls / Plastic / Nylon® 6/nylon® 6.6 (pa 6/pa 6.6) Balls
Semicrystalline thermoplastic Nylon® 6/Nylon® 6.6 polymer balls, they provide low weight, high corrosion, wear and abrasion resistance. They are auto lubricant and with good ductility, toughness and electric insulating properties. Useful even for high temperature applications.
Please note: chromatic appearence of the balls may be subject to variation.
Special valves, low load bearings, flow meters, switches, handgrips, medical and industrial applications.
Physical / mechanical / thermal / electric / magnetic properties
Coefficient of linear thermal expansion
Nylon® balls are insolvable into diluted mineral acids and in most organic acids. They are resisting to alkalis, petroleum products, greases, inorganic salt solutions, low gradation alcohols, motor oil, transmission fluids, methanol, ketones, esters. They do not resist to strong acids and basis.
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February 21, 2022 August 30, 2012 by Engr. Mohammad Zillane Patwary
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Nylon 6.6 is a polyamide fiber . Truly, it is one of the most important manmade textile fibers among the other synthetic fiber . This fiber is also called polyamide 6.6. Basically, the chemical name of nylon 6.6 is Polyhexamethylene-Adipamide.
Nylon is the first synthetic fiber in the world also it is a strong fiber. Moreover, it has enough ability to protect against friction. Generally, it uses for making socks and other textile products . Also, it uses as a rope to bind other things.
Nylon 6.6 is a strong fiber therefore it uses for heavy purposes to carry heavy materials. However, nylon 6.6 has some physical properties. The following are the physical properties of nylon 6.6. They are-
There are some chemical properties of nylon 6.6 moreover it is not so strong with the chemical action. The following are the chemical properties of nylon 6.6. They are-
In sum, nylon 6.6 is very important for its application in our daily chores. Day by day the use of nylon increases rapidly. Besides, it is important as polyester fiber . The manufacturing process of manmade fiber is near similar to nylon 6.6. I will write about the production process of nylon 6.6 in one of my next blogs.
So, we should be careful about the properties of nylon 6.6.
Are you sure regarding action of Acid and Alkali on Nylon 6 or 66? pl check, expecting reply.
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El Nylon 6-6 obtiene su nombre debido a la forma en que están unidas las moléculas. Esta tela sintética fue el primer sustituto de la seda hecho por el hombre. El desarrollo del Nylon 6-6 fue el trabajo de un químico orgánico que se especializó en la química de moléculas de polímero que ocurrían en la naturaleza. Luego él pudo calcular la fórmula para hacer un material similar en el laboratorio.
La fórmula química para el Nylon 6-6 tiene una cadena de 6 moléculas de carbono unidas a una cadena de otros 6 carbonos. Entre cada cadena hay un grupo amídico compuesto por oxígeno, carbono e hidróxido de nitrógeno. El Nylon 6-6 se llama así por esta doble cadena de 6 moléculas de carbono. Es una cadena de polímero.
El material se puede producir en el laboratorio al combinar cloruro de adipoilo con hexametilen diamina. Sin embargo, cuando el Nylon 6-6 se hace en una fábrica, se usa otra fórmula. Ahí el proceso implica la combinación de ácido adípico con hexametilen diamina. Como resultado, se desarrolla una fibra más fuerte que es parecida a la seda. Ambas tienen cadenas paralelas de moléculas amido unidas con enlaces de hidrógeno.
Le tomó varios años a Wallace Carothers darse cuenta de cómo hacer el proceso de polimerización para confeccionar un Nylon 6-6 en una tela lo suficientemente fuerte para reemplazar en artículos para las mujeres. Después que lo aprendió y describió la forma en que los polímeros naturales (como la seda) se forman, fue contratado para dirigir el laboratorio de investigación y desarrollo E.I. du Pont de Nemous & Co. Él pudo crear un nailon polímero con fibras débiles en 1934 pero hasta que aprendió como sacar el agua de las fibras, estas eran muy débiles para ser usadas. El proceso se perfeccionó en 1935.
El Nylon 6-6 fue el primer termoplástico hecho por el hombre. Es un material realmente fuerte. Es liviano, a prueba de viento, elástico, brillante y muy difícil de dañar. Ni el aceite ni los solventes o alcoholes pueden dañar el nailon. Sin embargo, cuando entra en contacto con ácidos diluidos, se puede empezar a desintegrar. Si tiene contacto con algún fenol, álcalis, yodo u otros ácidos, se va a disolver.
El Nylon 6-6 es el nailon más fuerte y el punto de fusión más alto así que se usa para algunas aplicaciones industriales. Viene en barras, tubos y hojas así que se le puede usar para aislar, para aislamiento acústico y para remplazar goma e incluso algunos metales. Debido a que no se raya con facilidad, se le usa para embalajes atractivos aún para comidas o drogas. La FDA y la USDA aprobaron el uso del material.
Reference #18.46fc733e.1665812379.4934abb3
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