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How can computational simulation and modeling be used to create lead-free alloys? Tameka Whitney W.W. Samuell HS, Dallas ISD Faculty Mentor: Raymundo Arroyave,

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Presentation on theme: "How can computational simulation and modeling be used to create lead-free alloys? Tameka Whitney W.W. Samuell HS, Dallas ISD Faculty Mentor: Raymundo Arroyave,"— Presentation transcript:

1 How can computational simulation and modeling be used to create lead-free alloys? Tameka Whitney W.W. Samuell HS, Dallas ISD Faculty Mentor: Raymundo Arroyave, Ph.D. Assistant Professor, Department of Mechanical Engineering

2 Meet Dr. Raymundo Arroyave Assistant Professor in the Department of Mechanical Engineering at Texas A & M University; joined the A&M faculty in 2006. Ph.D. in Materials Science from the Massachusetts Institute of Technology (MIT) Postdoctoral Scholar in the Department of Materials Science and Engineering at Pennsylvania State University

3 Computational Materials Science Its objective is to develop theories and methods to simulate the behavior of materials across time and length scales.

4 Computational Materials Science CMS practitioners use different computational simulation tools that model the behavior of materials at the macro-level.

5 Why is CMS important? Provides the “recipe” for creating a substance without using experimentation Simulate structural, mechanical & thermal properties

6 Dr. Arroyave’s Lab… Focuses on developing models, predicting material properties and assisting materials design using computer simulation and modeling software

7 Soldering Use of metal alloys in order to join 2 or more components

8 Soldering Majority of solders have been lead- tin alloys Reliable Inexpensive Relatively low melting temperatures

9 Lead-Free Soldering Uses copper-tin alloy instead of the typical tin- lead solder

10 Why is it important? Concern about environmental impact of discarded lead-containing products leak into groundwater from landfills pollutes air if incinerated

11 Where do I fit in? My role is to generate data on copper-tin based alloys that may be used in the soldering process Structural properties

12 In a nutshell…. Materials Science studies the relationship between the structure of a substance and its properties. Because of increased controls and legislation on the use of lead, lead-free alloys must be developed to be used in the soldering process. Besides Dr. Arroyave’s group, only 2 other groups in the US are researching lead-free alloys.

13 How can I use this in my classroom? Have students create a crystal of Cu 3 Sn using provided materials Types of bonding found in crystals (metallic, ionic) and the properties that result

14 Special Thanks E 3 Team Dr. Raymundo Arroyave Min Soo Park Colton Shannon National Science Foundation (NSF) Nuclear Power Institute (NPI) Texas Workforce Commission (TWC) Chevron

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