1. What is the Titanium Bar Weight Formula?

The titanium bar weight formula calculates the weight of a cylindrical titanium bar based on its diameter and length. It accounts for titanium's density (4510 kg/m³) and converts dimensions to consistent metric units.

2. How Does the Calculator Work?

The calculator uses the titanium bar weight formula:

Where:

• \( Diameter \) — Bar diameter in millimeters (mm)
• \( Length \) — Bar length in meters (m)
• 4510 — Density of titanium in kg/m³
• π — Pi (approximately 3.14159)

Explanation: The formula converts diameter from mm to m, calculates cross-sectional area, then multiplies by length and density to get weight in kilograms.

3. Importance of Weight Calculation

Details: Accurate weight calculation is crucial for material planning, shipping costs, structural engineering, and manufacturing processes involving titanium bars.

4. Using the Calculator

Tips: Enter diameter in millimeters and length in meters. All values must be positive numbers. The calculator automatically converts units and computes the weight.

5. Frequently Asked Questions (FAQ)

Q1: Why divide diameter by 1000?
A: The division converts millimeters to meters to maintain consistent metric units (density is in kg/m³).

Q2: Does this work for other shapes?
A: No, this formula is specific for cylindrical bars. Other shapes require different formulas.

Q3: What's the density value used?
A: The calculator uses 4510 kg/m³, which is the standard density for commercially pure titanium.

Q4: How accurate is this calculation?
A: It provides theoretical weight based on perfect geometry. Actual weight may vary slightly due to manufacturing tolerances.

Q5: Can I use this for titanium alloys?
A: Different alloys have slightly different densities. For precise calculations, use the specific density of your alloy.