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How to Use Westermann Tables 345.pdf for Engineering Calculations

Westermann Tables 345.pdf is a document that contains various tables and charts for engineering purposes. It covers topics such as materials, mechanical properties, heat treatment, machining, fasteners, gears, springs, and more. It is a useful reference for engineers, students, and hobbyists who need to perform calculations and design tasks.

In this article, we will show you how to use Westermann Tables 345.pdf for some common engineering problems. We will also provide a link to download the document for free.

What are Westermann Tables

Westermann Tables are a series of books that were first published in Germany in the 1930s by Hermann Westermann. They contain tables and charts that summarize various engineering data and formulas. They are designed to help engineers and technicians with calculations and design work.

Westermann Tables have been translated into many languages and updated over the years. The latest edition is Westermann Tables for the Metal Trade, which was published in 2012. It contains over 800 pages of information on metals, alloys, plastics, welding, machining, and more.

Westermann Tables 345.pdf is a document that contains some of the tables and charts from the original Westermann Tables. It is not a complete book, but rather a selection of pages that are relevant for general engineering purposes. It is available online for free download from various sources.

How to Use Westermann Tables 345.pdf

Westermann Tables 345.pdf can be used for various engineering calculations and design tasks. Here are some examples of how to use it:

Example 1: Finding the Specific Weight of a Material

The specific weight of a material is the weight per unit volume. It is often used to calculate the mass or weight of an object made of that material.

To find the specific weight of a material, you can use Table 1 on page 1 of Westermann Tables 345.pdf. This table lists the specific weight of various chemical elements and common materials in grams per cubic centimeter (gf/cm3) or kilograms per cubic decimeter (kgf/dm3).

For example, if you want to find the specific weight of copper, you can look up Table 1 and find that it is 8.9 gf/cm3 or 8.9 kgf/dm3.

Example 2: Finding the Melting Point of a Material

The melting point of a material is the temperature at which it changes from solid to liquid state. It is important to know the melting point of a material when working with heat treatment or welding processes.

To find the melting point of a material, you can use Table 1 on page 1 of Westermann Tables 345.pdf. This table lists the melting or solidification point of various chemical elements and common materials in degrees Celsius (ÂC).

For example, if you want to find the melting point of iron, you can look up Table 1 and find that it is 1535 ÂC.

Example 3: Finding the Coefficient of Linear Expansion of a Material

The coefficient of linear expansion of a material is a measure of how much it expands or contracts when its temperature changes. It is important to know the coefficient of linear expansion of a material when working with thermal stress or dimensional changes.

To find the coefficient of linear expansion of a material, you can use Table 1 on page 1 of Westermann Tables 345.pdf. This table lists the coefficient of linear (thermal) expansion of various chemical elements and common materials in units of micrometers per meter per degree Celsius (Îm/mÂC).

For example, if you want to find the coefficient of linear expansion of aluminum, you can look up Table 1 and find that it is 24 Îm/mÂC.

Where to Download Westermann Tables 345.pdf

If you want to download Westermann Tables 345.pdf for free, you can use this link: [^2^]. This document contains some pages from the original aa16f39245