Comments on: Bulk Thermal Conductivity vs. Thermal Impedence http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/ Technical support of solder spheres, LED, polyimide and tapioca starch Tue, 07 Sep 2010 08:10:32 +0000 hourly 1 http://wordpress.org/?v=3.0 By: bryan http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-1713 bryan Sat, 20 Sep 2008 19:58:06 +0000 http://caplinq.com/blog/?p=3#comment-1713 hi could anyone help need some information on thermal resistivity thanx hi could anyone help need some information on thermal resistivity

thanx

]]> By: spouspeli http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-37 spouspeli Fri, 08 Feb 2008 17:56:51 +0000 http://caplinq.com/blog/?p=3#comment-37 I’d prefer reading in my native language, because my knowledge of your languange is no so well. But it was interesting! I’d prefer reading in my native language, because my knowledge of your languange is no so well. But it was interesting!

]]> By: BlogBacker » Bulk Thermal Conductivity vs. Thermal Impedence by Linqblog http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-28 BlogBacker » Bulk Thermal Conductivity vs. Thermal Impedence by Linqblog Tue, 05 Feb 2008 02:51:03 +0000 http://caplinq.com/blog/?p=3#comment-28 [...] backed up on 02:04:2008Originally Published: Sat, 01 Sep 2007 20:04:44 +0000http://caplinq.com/blog/bulk-thermal-conductivity-vs-therm… With this entry I’d like to tackle the issue of thermal conductivity vs. thermal impedence in [...] [...] backed up on 02:04:2008Originally Published: Sat, 01 Sep 2007 20:04:44 +0000http://caplinq.com/blog/bulk-thermal-conductivity-vs-therm… With this entry I’d like to tackle the issue of thermal conductivity vs. thermal impedence in [...]

]]> By: Doodee http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-17 Doodee Fri, 01 Feb 2008 09:45:58 +0000 http://caplinq.com/blog/?p=3#comment-17 Thanks for sharing Thanks for sharing

]]> By: Linqblog http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-13 Linqblog Wed, 19 Dec 2007 14:28:20 +0000 http://caplinq.com/blog/?p=3#comment-13 The WebElements website is the best source to obtain the thermal conductivity value of the entire periodic table. www.webelements.com The WebElements website is the best source to obtain the thermal conductivity value of the entire periodic table. http://www.webelements.com

]]> By: Eric Nana Owusu http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-11 Eric Nana Owusu Wed, 19 Dec 2007 13:37:39 +0000 http://caplinq.com/blog/?p=3#comment-11 please i need table for as many thermal conductivity of substances as possible. please i need table for as many thermal conductivity of substances as possible.

]]> By: Linqblog http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-8 Linqblog Wed, 21 Nov 2007 21:42:06 +0000 http://caplinq.com/blog/?p=3#comment-8 Though this isn't the right forum to discuss thermodynamics equations, this is indeed a simple formula that follows Newton's law of cooling which states that the rate of heat loss of a body is proportional to the difference in temperatures between the body and its surroundings. The law is: Q = h · A(To - Ta) where Q = Heat transfer in Watts h = Heat transfer coefficient A = Surface area of the heat being transferred To = Temperature of the object's surface Ta = Temperature of the surroundings Grab a paper and pencil and you'll get your answer in no time! Though this isn’t the right forum to discuss thermodynamics equations, this is indeed a simple formula that follows Newton’s law of cooling which states that the rate of heat loss of a body is proportional to the difference in temperatures between the body and its surroundings. The law is:

Q = h · A(To – Ta)
where
Q = Heat transfer in Watts
h = Heat transfer coefficient
A = Surface area of the heat being transferred
To = Temperature of the object’s surface
Ta = Temperature of the surroundings

Grab a paper and pencil and you’ll get your answer in no time!

]]> By: Lee http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-7 Lee Fri, 16 Nov 2007 21:16:45 +0000 http://caplinq.com/blog/?p=3#comment-7 i have a question about heat transfer let say: one face of aluminum plat 1.5cm thick is maintained 700 degree celsius and the other face is maintained at 20 degree celsius (air outside). therma conductivity for aluminum is 202w/mxk area is 0.0491 m square so the answer is approximate 449.63Kw/m square so... it take how long to balance the both temperature???? thank you i have a question about heat transfer
let say: one face of aluminum plat 1.5cm thick is maintained 700 degree celsius and the other face is maintained at 20 degree celsius (air outside).
therma conductivity for aluminum is 202w/mxk
area is 0.0491 m square

so the answer is approximate 449.63Kw/m square

so… it take how long to balance the both temperature????

thank you

]]> By: Linqblog http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-6 Linqblog Thu, 25 Oct 2007 21:10:24 +0000 http://caplinq.com/blog/?p=3#comment-6 CAPLINQ can supply the Styropore or equivalent material. What we require with these inquiries are the size of product required and the quantity requested. Once this is received, CAPLINQ can provide a quotation for you. CAPLINQ can supply the Styropore or equivalent material. What we require with these inquiries are the size of product required and the quantity requested. Once this is received, CAPLINQ can provide a quotation for you.

]]> By: rahul http://www.caplinq.com/blog/bulk-thermal-conductivity-vs-thermal-impedence_3/comment-page-1/#comment-5 rahul Thu, 25 Oct 2007 11:52:25 +0000 http://caplinq.com/blog/?p=3#comment-5 Where the Styropore available? We require the list of suppliers. Better, if get the Indian/ Asian Supplier. Where the Styropore available? We require the list of suppliers. Better, if get the Indian/ Asian Supplier.

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