Brass Hex Bar Weight Calculator
Calculate the weight of Brass Hex Bar by entering your dimensions. The density of Brass is 0.3065 lb/in³ (8484 kg/m³). Use this calculator for quick stock weight estimates in your CNC machining projects. Accurate weight calculations are essential for shipping quotes, material cost estimation, fixturing load analysis, and structural design verification. The theoretical weight formula assumes a uniform cross-section and standard alloy density; actual weights may differ slightly by grade and mill tolerance. Weight data is calculated using the standard volumetric formula multiplied by the material density constant shown above.
Material Properties
| Material | Brass |
| Shape | Hex Bar |
| Density | 0.3065 lb/in³ / 529.6 lb/ft³ / 8484 kg/m³ |
| Example Weight | 3.185 lb / 1.445 kg |
Compare Materials — Hex Bar
| Material | Weight (lb) | Weight (kg) |
|---|---|---|
| Aluminum | 1.013 | 0.46 |
| Steel | 2.944 | 1.335 |
| Brass (current) | 3.185 | 1.445 |
Sourcing and Use Notes
C360 free-cutting brass (61.5% Cu, 35.5% Zn, 3% Pb) is the default machining brass — runs at high SFM with sharp positive-rake tooling and produces small broken chips ideal for Swiss-style turning. Used for plumbing fittings, decorative hardware, gears, and electrical connectors where solderability and dimensional stability matter. Lead-free brasses such as C314 and C485 are increasingly required for drinking-water and food-contact parts under NSF/ANSI 372; expect slightly poorer chip control and lower achievable surface speeds versus C360.
Hex bar is six-sided stock with standard across-flats sizes that match common wrench openings — used to manufacture bolts, nuts, valve bodies, fittings, and any part that needs a wrench-grip surface as-machined. Cold-drawn hex bar in 12L14 leaded steel, 304 stainless, or C360 brass is the Swiss-turning workhorse for high-volume fastener production. Specify across-flats (AF) dimension, not across-corners, because AF maps directly to the wrench size users will reach for. Hex stock costs more per pound than round but eliminates a complete six-face milling operation.
Common Applications
Brass Hex Bar is a standard stock form used in structural frames, machine bases, brackets, and fabricated components. Its consistent cross-section simplifies weight-per-foot calculations and material takeoffs for procurement and shipping cost estimates. Engineers and machinists rely on theoretical weight data during the quoting and planning stages before final parts are produced. For large orders or weight-critical designs, request certified mill test reports (MTRs) to confirm actual density and alloy composition.
Sourcing and Weight Tolerance Note
This weight is based on the theoretical density of Brass. Mill tolerances (ASTM A6 allows ±2.5% on cross-sectional area for structural shapes) and surface treatments (anodizing, plating, painting) may add 1–3% to actual shipped weight. Order 5–10% material overage to account for saw kerfs and offcuts. Always verify actual material density with your supplier's material test report (MTR) for critical structural or load-bearing applications. Compare weights across materials using the comparison table above to make informed material selection decisions for your project.