Optimal projection equations: Difference between revisions

Revision as of 04:11, 9 January 2013

The Lankford coefficient (also called Lankford value, R-value, or plastic strain ratio)^[1] is a measure of the plastic anisotropy of a rolled sheet metal. This scalar quantity is used extensively as an indicator of the formability of recrystallized low-carbon steel sheets.^[2]

Definition

If $x$ and $y$ are the coordinate directions in the plane of rolling and $z$ is the thickness direction, then the R-value is given by

R = \frac{ϵ_{x y}^{p}}{ϵ_{z}^{p}}

where $ϵ_{x y}^{p}$ is the plastic strain in-plane and $ϵ_{z}^{p}$ is the plastic strain through-the-thickness.

More recent studies have shown that the R-value of a material can depend strongly on the strain even at small strains Potter or Ceramic Artist Truman Bedell from Rexton, has interests which include ceramics, best property developers in singapore developers in singapore and scrabble. Was especially enthused after visiting Alejandro de Humboldt National Park. . In practice, the $R$ value is usually measured at 20% elongation in a tensile test.

For sheet metals, the $R$ values are usually determined for three different directions of loading in-plane ( $0^{\circ}, 4 5^{\circ}, 9 0^{\circ}$ to the rolling direction) and the normal R-value is taken to be the average

R = \frac{1}{4} (R_{0} + 2 R_{45} + R_{90}) .

The planar anisotropy coefficient or planar R-value is a measure of the variation of $R$ with angle from the rolling direction. This quantity is defined as

R_{p} = \frac{1}{2} (R_{0} - 2 R_{45} + R_{90}) .

Anisotropy of steel sheets

Generally, the Lankford value of cold rolled steel sheet acting for deep-drawability shows heavy orientation, and such deep-drawability is characterized by $R$ . However, in the actual press-working, the deep-drawability of steel sheets cannot be determined only by the value of $R$ and the measure of planar anisotropy, $R_{p}$ is more appropriate.

In an ordinary cold rolled steel, $R_{90}$ is the highest, and $R_{45}$ is the lowest. Experience shows that even if $R_{45}$ is close to 1, $R_{0}$ and $R_{90}$ can be quite high leading to a high average value of $R$ .^[2] In such cases, any press-forming process design on the basis of $R_{45}$ does not lead to an improvement in deep-drawability.

References

43 year old Petroleum Engineer Harry from Deep River, usually spends time with hobbies and interests like renting movies, property developers in singapore new condominium and vehicle racing. Constantly enjoys going to destinations like Camino Real de Tierra Adentro.

↑ Lankford, W. T., Snyder, S. C., Bausher, J. A.: New criteria for predicting the press performance of deep drawing sheets. Trans. ASM, 42, 1197–1205 (1950).
↑ ^2.0 ^2.1 Ken-ichiro Mori, Simulation of Materials Processing: Theory, Methods and Applications, (ISBN 9026518226), p. 436

[1] Lankford, W. T., Snyder, S. C., Bausher, J. A.: New criteria for predicting the press performance of deep drawing sheets. Trans. ASM, 42, 1197–1205 (1950).

[Mori-2] 2.0 ^2.1 Ken-ichiro Mori, Simulation of Materials Processing: Theory, Methods and Applications, (ISBN 9026518226), p. 436

[1]

[2]

@@ Line 1: / Line 1: @@
-Security in the home hasn&quot;t been as important and as apparent because it is today. Recently there&quot;s been an ever-increasing amount of home-based crimes including home invasions and break & enters. Of course, any home owner desires to defend their families and possessions, step one in home security may be the conclusion that there surely is a dependence on it. <br><br>The single most visible aspect of home security could be the monitored alarm system. Home security systems have been with us for quite a long time and have evolved as a result of increased need and indeed, need for these defensive measures. The security of mind provided by alarm systems is second to none as they supply a wealth of services along with the track of the home. In a time of emergency in the home, most security systems provides easy one-touch connections to the Fire, Police and Ambulance services. Also, you&quot;re always notified by your tracking company if your alarm is activated. Get more about [https://www.slideshare.net/alarmrelay/ tour home alarm monitoring] by browsing our impressive URL. Extra solutions are also available such as the instant dispatch of security personnel in the event of an alarm when you are unable to attend. This could provide a great satisfaction when on extended leaves of absence from the house. Eventually, many insurance companies offer a decrease in the cost of home insurance for a checked home. <br><br>There are always a variety of other items a homeowner can perform to greatly help ensure the security of these home. A lot of them are simple easy methods that are often neglected. Identify more on [http://www.youtube.com/watch?v=Ga8CrW0LmAQ alarm monitoring service] by visiting our powerful web page. One of these simple features is outdoor lighting round the house. If the front of your house is hidden and dark, it might be advisable to present some light that makes the entranceway more apparent. Remember that visibility will often deter petty thieves as a deeper region is much easier in which to hide their actions. Next you need to consider where it is that thieves often enter the home, that is, the windows. Check out all the windows in your home and make sure that the locks have been in good working order. Its also a good idea to test the locks on your doors, are they old and a bit shaky? Alternative with new strong locks might be so as. <br><br>Connection with the neighbors is still another great preventive measure. To explore more, please gander at: [http://www.pinterest.com/alarmrelay/ best home alarm company]. They&quot;ll be just like concerned while in regards to the security of these families and homes. Keeping informed about strange occurrences in the neighborhood will help increase the safety and attention of all concerned. An attitude of participation and awareness is one of the most useful defenses against house crimes..<br><br>If you have any questions relating to where and the best ways to use [http://www.blogigo.com/woebegonegather23 purchase health insurance], you could contact us at the web page.
+The '''Lankford coefficient''' (also called Lankford value, R-value, or plastic strain ratio)<ref>Lankford, W. T., Snyder, S. C., Bausher, J. A.: ''New criteria for predicting the press performance of deep drawing sheets.'' Trans. ASM, 42, 1197–1205 (1950).</ref> is a measure of the [[plasticity (physics)|plastic]] [[anisotropy]] of a [[rolling (metalworking)|rolled]] [[sheet metal]].  This [[Scalar (physics)|scalar]] quantity is used extensively as an indicator of the [[formability]] of [[recrystallization|recrystallized]] [[low-carbon steel]] sheets.<ref name=Mori>Ken-ichiro Mori, ''Simulation of Materials Processing: Theory, Methods and Applications'', (ISBN 9026518226), p.&nbsp;436</ref>
+== Definition ==
+If <math>x</math> and <math>y</math> are the coordinate directions in the plane of rolling and <math>z</math> is the thickness direction, then the R-value is given by
+:<math>
+   R = \cfrac{\epsilon^p_{\mathrm{xy}}}{\epsilon^p_{\mathrm{z}}}
+ </math>
+where <math>\epsilon^p_{\mathrm{xy}}</math> is the [[plastic strain]] in-plane and <math>\epsilon^p_{\mathrm{z}}</math> is the plastic strain through-the-thickness.
+More recent studies have shown that the R-value of a material can depend strongly on the strain even at small strains {{Citation needed|date=July 2009}} .  In practice, the <math>R</math> value is usually measured at 20% elongation in a [[tensile test]].
+For [[sheet metal]]s, the <math>R</math> values are usually determined for three different directions of loading in-plane (<math>0^{\circ}, 45^{\circ}, 90^{\circ}</math> to the [[rolling direction]]) and the '''normal R-value''' is taken to be the average
+:<math>
+   R = \cfrac{1}{4}\left(R_0 + 2~R_{45} + R_{90}\right) ~.
+ </math>
+The '''planar anisotropy coefficient''' or '''planar R-value''' is a measure of the variation of <math>R</math> with angle from the rolling direction.  This quantity is defined as
+:<math>
+   R_p = \cfrac{1}{2}\left(R_0 - 2~R_{45} + R_{90}\right) ~.
+ </math>
+== Anisotropy of steel sheets ==
+Generally, the Lankford value of [[cold rolled steel]] sheet acting for [[Deep drawing|deep-drawability]] shows heavy orientation, and such deep-drawability is characterized by <math>R</math>.  However, in the actual press-working, the deep-drawability of steel sheets cannot be determined only by the value of <math>R</math> and the measure of planar anisotropy, <math>R_p</math> is more appropriate.
+In an ordinary cold rolled steel, <math>R_{90}</math> is the highest, and <math>R_{45}</math> is the lowest.  Experience shows that even if <math>R_{45}</math> is close to 1, <math>R_0</math> and <math>R_{90}</math> can be quite high leading to a high  average value of <math>R</math>.<ref name=Mori />  In such cases, any press-forming process design on the basis of <math>R_{45}</math> does not lead to an improvement in deep-drawability.
+== See also ==
+* [[Yield surface]]
+==References==
+{{reflist}}
+{{DEFAULTSORT:Lankford Coefficient}}
+[[Category:Plasticity]]
+[[Category:Solid mechanics]]
+[[Category:Metal forming]]

Optimal projection equations: Difference between revisions

Revision as of 04:11, 9 January 2013

Contents

Definition

Anisotropy of steel sheets

See also

References

Navigation menu

Optimal projection equations: Difference between revisions

Revision as of 04:11, 9 January 2013

Definition

Anisotropy of steel sheets

See also

References

Navigation menu

Search