R (cross section ratio): Difference between revisions

Latest revision as of 14:09, 11 January 2014

The Larson-Miller parameter is a means of predicting the lifetime of material vs. time and temperature using a correlative approach based on the Arrhenius rate equation. The value of the parameter is usually expressed as LMP=T(C + log t) where C is a material specific constant often approximated as 20, t is the time in hours and T is the temperature in Kelvin.

Creep-stress rupture data for high-temperature creep-resistant alloys are often plotted as log stress to rupture versus a combination of log time to rupture and temperature. One of the most common time–temperature parameters used to present this kind of data is the Larson-Miller (L.M.) parameter, which in generalized form is

$P (L . M .) = T [\log t_{r} + C]$

T = temperature, K or °R
$t_{r}$ = stress-rupture time, h
C = constant usually of order 20

According to the L.M. parameter, at a given stress level the log time to stress rupture plus a constant of the order of 20 multiplied by the temperature in kelvins or degrees Rankine remains constant for a given material.

References

F.R. Larson & J. Miller, Transactions ASME, Vol. 74, p 765-771, 1952.
G. E. Fuchs, High Temperature Alloys, Kirk-Othmer Encyclopedia of Chemical Technology
Smith & Hashemi, Foundations of Material Science and Engineering
G.E. Dieter, Mechanical Metallurgy, Third Edition, McGraw-Hill Inc., 1986, p 461-465, ISBN 0-07-016893-8.

@@ Line 1: / Line 1: @@
-When they are already to begin with released, almost all these adjustable baseball caps have been containing pliable plastic straps that are adjustable. Aside from the first plastic strapped adjustable baseball caps, presently there are also more modern variations that straps resemble minor belts at the back of the cap. It's likely, often seen one of these of these more mature design baseball caps vehicle, and can readily determine them by viewing the rectangular adjuster straps. Yet, as minor and major league baseball people form a miniscule area of folks that use baseball caps, that lots of people associated with old fashioned hats didn't do anything to sluggish the influx most recent, more inexpensive, and much more universally wearable caps. Try on some this cap while doing simple chores at home such as cleaning, mowing the lawn and [http://Photobucket.com/images/organizing organizing] the garage also.<br><br>However people [http://www.voyagertrailers.com/snowmobile/?p=cheap-snapback-hats-for-sale.html cheap snapback hats for sale] within the serious and insignificant baseball leagues often implement personalized hats to allow for the very best suit.  The cold must not hinder you from doing what you love to complete. The strap is in the suitable placement with a minor plastic or metal clasp that may be opened or closed without trouble, counting in effortless adjustment within the cap. Winter beanie caps are particularly ideal for the outdoors. If you want to exercise outside or play a hobby, these caps can become useful.<br><br>[http://www.metcosupply.com/shopping/?p=cheap-59fifty-hats.html cheap 59fifty hats]<br><br>Pull one of these caps too deep before you come out of the entranceway and you are able to stay warm walking to your car, driving home or taking a walk neighborhood. All you need to do is wear items which will make you stay warm; it is important to stay smart once you expose yourself to the cold winter weather. If you love to run, jog, walk, hike or even play soccer outside, these caps are perfect to wear because they're comfortable and they'll keep the particular cold out. You can strike of the comfort of your house or office knowing that you will be warm. These straps lie on spare on both within the rear again inside the cap, with both sides using holes additionally, another part using corresponding plastic tabs.<br><br>If you wish to take a stroll in the park or want to exercise your dog by taking it for a walk, enjoy it and wear one of these caps. The circumference of caps is normally modified without trouble by switching the sheer number of plastic tabs that will be secured during the holes. Once the cold weather swings into full force, you will want to be covered up and warm, specially when you must step outside, leaving enhanced comfort of your home or office. The widespread implementation of adjustable baseball caps amongst baseball teams allowed many footing the associated fee to economies and time, for the reason that didn't must distinctive get hats every staffer individually. With these different types of caps, the straps are apt to be composed of identical substance that the remainder with the cap is fashioned from, stylish cotton, polyester, wool, or some mix thereof.
+{{Duplication}}
+The '''Larson-Miller parameter''' is a means of predicting the lifetime of material vs. time and temperature using a correlative approach based on the [[Arrhenius equation|Arrhenius rate equation]]. The value of the parameter is usually expressed as ''LMP''=''T''(''C'' + log ''t'') where ''C'' is a material specific constant often approximated as 20, ''t'' is the time in hours and ''T'' is the temperature in Kelvin.
+[[Creep (deformation)|Creep]]-stress rupture data for high-temperature creep-resistant alloys are often plotted as log stress to rupture versus
+a combination of log time to rupture and temperature. One of the most common time–temperature parameters used to present this kind of data is the Larson-Miller (L.M.) parameter, which in generalized form is
+<math>P(L.M.) = T[\log t_r + C]</math>
+''T'' = temperature, K or °R <br>
+<math> t_r </math> = stress-rupture time, h <br>
+''C'' = constant usually of order 20
+According to the L.M. parameter, at a given stress level the log time to stress rupture plus a constant of the order of 20 multiplied by the temperature in kelvins or degrees Rankine remains constant for a given material.
+==References==
+* F.R. Larson & J. Miller, ''Transactions ASME'', Vol. '''74''', p 765-771, 1952.
+* G. E. Fuchs, High Temperature Alloys, ''Kirk-Othmer Encyclopedia of Chemical Technology''
+* Smith & Hashemi, ''Foundations of Material Science and Engineering''
+* G.E. Dieter, ''Mechanical Metallurgy, Third Edition'', McGraw-Hill Inc., 1986, p 461-465, ISBN 0-07-016893-8.
+==See also==
+* [[Larson-Miller relation]]
+* [[Creep (deformation)]]
+[[Category:Materials science]]

R (cross section ratio): Difference between revisions

Latest revision as of 14:09, 11 January 2014

References

See also

Navigation menu

Search