Nylon 6 10
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Project at a Glance Contents on the CD ROM
  • Polyamides can be made by combining a diamine and a dicarboxylic acid or acyl chloride. Nylon, the first synthetic fibre, is a polyamide. It was developed in the United States in the 1930s and quickly became a cheap
    alternative to silk.
  • There are many types of nylons but the most important is nylon 6, 6; so called because each monomer contains six carbon atoms, Nylon 6, 6 both as a fibre and as a plastic has a rare combination of properties—high strength,elasticity, toughness and abrasion resistance.
  • It therefore has a wide range of uses—from gear wheels to fine strands for pantyhose. Nylon 6,10 is another important nylon with very similar properties.
  • Nylon 6, 6 is made from hexa nedioic acid and 1, 6 diamin ohexane, Nylon 6, 10 is made from decanedioic acid and 1, 6 diaminohexane.
  • Nylon-6,10 (PA610) is semicrystalline polyamide commonly used in monofilament form in applications such as bristles and brushes, due to its low moisture absorption compared to other nylons, it retains its properties better when wet.
  • All nylons are susceptible to hydrolysis, especially by strong acids, a reaction essentially the reverse of the synthetic reaction shown above.
  • The molecular weight of nylon products so attacked drops fast, and cracks form quickly at the affected zones,Lower members of the nylons (such as nylon 6,10) are affected more than higher members such as nylon 12.
  • This means that nylon parts cannot be used in contact with sulfuric acid for example, such as the electrolyte used in lead-acid batteries, When being molded, nylon must be dried to prevent hydrolysis in the molding machine barrel since water at high temperatures can also degrade the polymer.
  • Various nylons break down in fire and form hazardous smoke, and toxic fumes or ash, typically containing hydrogen cyanide, Incinerating nylons to recover the high energy used to create them is usually expensive, so most nylons reach the garbage dumps, decaying very slowly;Some recycling is done on nylon, usually creating pellets for reuse in the industry.
  • Notes on nylon 6-10.
  • Nylon monofilaments.
  • Polymers from beans.
  • General information for nylon 6-10.
  • Polyamide 6.10.
  • General notes of nylon 6,10.

properties & Uses

  • Properties of Nylon 6-10.
  • Nylon properties.
  • Nylon 6-10 properties and advantages.
  • Available properties of Nylon 6-10.
  • Features of nylon 6-10.
  • Polymer processing properties of nylon 6-10.


  • Data sheet for Nylon 6-10 resin.
  • Product data sheet for Nylon 6-10.


  • Nylon 6,10 synthesis.
  • Making nylon 6,10.
  • Synthesis of Nylon 6,10.
  • Nylon synthesis and rope trick kit.
  • Preparation of nylon 6-10 film/fiber from interfacial polymerization.
  • Organic polymers:The synthesis of nylon.


  • Natural abundance n CP/MAS NMR of nylons.A sensitive technique for evaluting crytalline composition and conformation in solid polyamides.


  • Rotational molded article formed from high molecular weight polyamides.
  • fluid transfer multi-layer tube based on a polyamide and an ethyl vinyl alcohol or polyvinyl alcohol.
  • Salt resistant polyamide compositions.
  • Method for preparing polyamide foam and foam capable of being produced by said method.

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  • Suppliers of nylon 6-10.
  • Manufacturers of nylon 6-10.
  • Selling leads of nylon 6-10.
  • Suppliers of polyamide 6-10.
  • Exporters of nylon 6-10.
  • List of nylon 6-10 suppliers.

Company & Consultancy

  • Company from China.
  • Consultancy from Houston.
  • Consultancy from USA.
  • Online consultancy.
  • Another online consultancy.

Raw material suppliers

  • Hexamethylene diamine.
  • Sebacoyl chloride.


  • MSDS for Nylon 6-10.
  • MSDS for nylon 6-10 resin.
  • Safety sheet for Polyamide 6,10.
  • Safety data sheet for nylon 6/10[poly(hexamethylene sebacamide)]
  • Nylon 6-10 safety data sheet


  • Nylon rope trick.
  • Nylon interfacial polymerization.
  • Interfacial polymerization of nylon 6,10.
  • Linear and crosslinked polymers.
  • Preparation of nylon 6,10.
  • Nylon 6-10 preparation.


  • Solution 13C NMR spectroscopy of polyamide homopolymers (nylons 6, 11, 12, 66, 69, 610 and 612) and several commercial copolymers.
  • Crystal Structures and Properties of Nylon Polymers from Theory.
  • Localized in-situ polymerization on graphene surfaces for stabilized graphene dispersions
  • Study on the degradability of poly(ester amide)s related to nylon and polyesters 6,10 or 12,10.
  • Nylons: A Review of the Literature on Products of
    Combustion and Toxicity.
  • Tuning the Mechanical Properties of SWNT/Nylon 6,10 Composites with Flexible Spacers at the Interface.

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