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nylon

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Infrared spectra of <span class="search-highlight">nylon</span> 11. Composition: <span class="search-highlight">nylon</span> 11, polyundecal lactam. Us...

Infrared spectra of nylon 11. Composition: nylon 11, polyundecal lactam. Us...

in Analysis of Polymer Structure > Characterization and Failure Analysis of Plastics
Published: 15 May 2022
Fig. 3 Infrared spectra of nylon 11. Composition: nylon 11, polyundecal lactam. Used for plastics of all kinds. Preparation: multiple internal reflection, pressed film; far infrared, film from formic acid solution More
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Erosion-corrosion occurring immediately downstream of a <span class="search-highlight">nylon</span> insert in an ...

Erosion-corrosion occurring immediately downstream of a nylon insert in an ...

in Corrosion in the Condensate-Feedwater System > Corrosion: Environments and Industries
Published: 01 January 2006
Fig. 2 Erosion-corrosion occurring immediately downstream of a nylon insert in an aluminum brass condenser tube cooled by seawater More
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Use of <span class="search-highlight">nylon</span> washers to separate a magnesium automobile grill from a steel ...

Use of nylon washers to separate a magnesium automobile grill from a steel ...

in Corrosion of Magnesium and Magnesium-Base Alloys > Corrosion: Materials
Published: 01 January 2005
Fig. 29 Use of nylon washers to separate a magnesium automobile grill from a steel hood and holddown screw and avoid galvanic corrosion More
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Craze emanating from a fatigue crack tip in amorphous <span class="search-highlight">nylon</span>. A discontinuou...

Craze emanating from a fatigue crack tip in amorphous nylon. A discontinuou...

in Micromechanisms of Monotonic and Cyclic Crack Growth > Fatigue and Fracture
Published: 01 January 1996
Fig. 26 Craze emanating from a fatigue crack tip in amorphous nylon. A discontinuous growth band will form as the crack propagates through the craze. Under polarized light, 560×. Source: Ref 56 More
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SEM of <span class="search-highlight">nylon</span> woven cloth for polishing. Original magnification: 50×

SEM of nylon woven cloth for polishing. Original magnification: 50×

in Metallography and Image Analysis > Thermal Spray Technology
Published: 01 August 2013
Fig. 36 SEM of nylon woven cloth for polishing. Original magnification: 50× More
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Amorphous <span class="search-highlight">nylon</span> structure

Amorphous nylon structure

in Advanced Thermoplastics > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 9 Amorphous nylon structure More
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Structure of a transparent <span class="search-highlight">nylon</span>

Structure of a transparent nylon

in Advanced Thermoplastics > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 10 Structure of a transparent nylon More
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Thermoset <span class="search-highlight">nylon</span>

Thermoset nylon

in Advanced Thermoplastics > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 11 Thermoset nylon More
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Flexural modulus of PET versus temperature compared with <span class="search-highlight">nylon</span>

Flexural modulus of PET versus temperature compared with nylon

in Advanced Thermoplastics > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 43 Flexural modulus of PET versus temperature compared with nylon More
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Imprint of a <span class="search-highlight">nylon</span> peel ply left after removal from composite laminate. 58×...

Imprint of a nylon peel ply left after removal from composite laminate. 58×...

in Joining of Organic-Matrix Composites > Welding, Brazing, and Soldering
Published: 01 January 1993
Fig. 7 Imprint of a nylon peel ply left after removal from composite laminate. 58× More
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Chemical structure of <span class="search-highlight">nylon</span> 6,6

Chemical structure of nylon 6,6

in Solid Analysis by Mass Spectrometry > Materials Characterization
Published: 15 December 2019
Fig. 8 Chemical structure of nylon 6,6 More
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Effect of temperature on adhesive stress-strain curves in shear. <span class="search-highlight">Nylon</span>&#x2F;epox...

Effect of temperature on adhesive stress-strain curves in shear. Nylon/epox...

in Bolted and Bonded Joints > Composites
Published: 01 January 2001
Fig. 17 Effect of temperature on adhesive stress-strain curves in shear. Nylon/epoxy adhesive (120 °C, or 250 °F, cure) More
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Creep moduli of glass-reinforced <span class="search-highlight">nylon</span> 6 and glass-reinforced polytetrafluo...

Creep moduli of glass-reinforced nylon 6 and glass-reinforced polytetrafluo...

in Deformation and Viscoelasticity of Polymers > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 21 Creep moduli of glass-reinforced nylon 6 and glass-reinforced polytetrafluoroethylene (PTFE). Source: Ref 31 More
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Ultimate tensile strength versus temperature for polyamide (<span class="search-highlight">nylon</span>) resin an...

Ultimate tensile strength versus temperature for polyamide (nylon) resin an...

in Forms and Properties of Composite Materials > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 15 Ultimate tensile strength versus temperature for polyamide (nylon) resin and resin-matrix composites More
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Tensile elongation at break versus temperature for polyamide (<span class="search-highlight">nylon</span>) resin ...

Tensile elongation at break versus temperature for polyamide (nylon) resin ...

in Forms and Properties of Composite Materials > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 16 Tensile elongation at break versus temperature for polyamide (nylon) resin and resin-matrix composites. DAM, dry as molded More
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Thermal conductivity versus temperature for polyamide (<span class="search-highlight">nylon</span>) resin and res...

Thermal conductivity versus temperature for polyamide (nylon) resin and res...

in Forms and Properties of Composite Materials > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 17 Thermal conductivity versus temperature for polyamide (nylon) resin and resin-matrix composite More
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Elastic tensile modulus versus temperature for polyamide (<span class="search-highlight">nylon</span>) resin and ...

Elastic tensile modulus versus temperature for polyamide (nylon) resin and ...

in Forms and Properties of Composite Materials > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 18 Elastic tensile modulus versus temperature for polyamide (nylon) resin and resin-matrix composites More
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Ultimate shear strength versus temperature for polyamide (<span class="search-highlight">nylon</span>) resin and ...

Ultimate shear strength versus temperature for polyamide (nylon) resin and ...

in Forms and Properties of Composite Materials > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 20 Ultimate shear strength versus temperature for polyamide (nylon) resin and resin-matrix composites More
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Coefficient of thermal expansion versus temperature for polyamide (<span class="search-highlight">nylon</span>) r...

Coefficient of thermal expansion versus temperature for polyamide (nylon) r...

in Forms and Properties of Composite Materials > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 21 Coefficient of thermal expansion versus temperature for polyamide (nylon) resin and resin-matrix composites. 10 −6 /K × 5 9 = μin./in. × °F More
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Dielectric strength versus temperature for unreinforced polyamide (<span class="search-highlight">nylon</span>) r...

Dielectric strength versus temperature for unreinforced polyamide (nylon) r...

in Forms and Properties of Composite Materials > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 22 Dielectric strength versus temperature for unreinforced polyamide (nylon) resin More