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  • Orthotropic material
    ...ulus]] along axis <math>i</math>, <math>G_{\rm ij}\,</math> is the [[shear modulus]] in direction <math>j</math> on the plane whose normal is in direction <ma
    23 KB (2,910 words) - 10:07, 20 September 2010
  • Aramid
    ...para-aramid - with much higher [[tensile strength|tenacity]] and [[elastic modulus]] was also developed in the 1960s-1970s by DuPont and [[Akzo Nobel]], both * high [[Young's modulus]]
    10 KB (1,313 words) - 10:07, 20 September 2010
  • Tensometer
    A '''tensometer''' is a device used to evaluate the [[Young's modulus]] (how much it stretches under strain) of a material and other [[Tension (p
    2 KB (369 words) - 10:08, 20 September 2010
  • Spherulite (polymer physics)
    ...articular, crystallinity, [[density]], [[tensile strength]] and [[Young's modulus]] of polymers increase during spherulization. This increase is due to the l
    9 KB (1,348 words) - 10:09, 20 September 2010
  • Polymer engineering
    Thermoplastics have relatively low [[Young's modulus|tensile moduli]], but also have low densities and properties such as [[tran
    3 KB (461 words) - 10:09, 20 September 2010
  • Polypropylene
    ...h-density polyethylene ([[High-density polyethylene|HDPE]]); its [[Young's modulus]] is also intermediate. Polypropylene is normally tough and flexible, espec ...ne]]. Such containers provide a good hands-on example of the difference in modulus, since the rubbery (softer, more flexible) feeling of LDPE with respect to
    25 KB (3,657 words) - 10:10, 20 September 2010
  • Polysulfone
    ...wice the tensile strength and three time increase of its [[Young's modulus|modulus]].
    5 KB (716 words) - 10:10, 20 September 2010
  • Polyethylene terephthalate
    | [[Young's modulus]] (E) ...or [[fibre reinforced plastic|fibers]], it becomes significantly [[Young's modulus|stiffer]] and more durable. This glass-filled plastic, in a semi-crystallin
    43 KB (6,272 words) - 10:11, 20 September 2010
  • Polymer
    ====Young's modulus of elasticity==== ...s involving the physical properties of polymers, such as rubber bands. The modulus is strongly dependent on temperature.
    45 KB (6,501 words) - 10:11, 20 September 2010
  • Polycarbonate
    <tr><td>[[Young's modulus|Young's modulus (E)]]</td><td>2.0–2.4 [[Giga|G]][[Pascal (unit)|Pa]]</td></tr>
    20 KB (2,772 words) - 10:11, 20 September 2010
  • Refractory metals
    | style="background-color:lightgrey; text-align:left" | [[Young's modulus]]
    25 KB (3,519 words) - 10:13, 20 September 2010
  • Polystyrene
    |[[Young's modulus]] (''E'')
    36 KB (5,017 words) - 10:14, 20 September 2010
  • Lunarcrete
    ! [[Young's modulus]]
    15 KB (2,061 words) - 10:21, 20 September 2010
  • Wood
    ...and stress at elastic limit in cross-bending, while the [[Elastic modulus|modulus of elasticity]] is least affected.
    41 KB (6,609 words) - 10:24, 20 September 2010
  • Beryllium
    ...m is approximately 50% greater than that of steel. The combination of this modulus plus beryllium's relatively low density gives it an unusually fast [[speed
    41 KB (5,890 words) - 21:34, 20 September 2010
  • Scientific phenomena named after people
    * [[Young's modulus]] — [[Thomas Young (scientist)|Thomas Young]]
    64 KB (7,072 words) - 21:05, 21 September 2010
  • Mechanical filter
    ...1974.</ref><ref>{{cite journal |doi = 10.1007/BF02697070 |title = Constant modulus alloys for mechanical oscillators |year = 1979 |last1 = Schneider |first1 =
    52 KB (7,784 words) - 14:49, 10 December 2011
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