Calculate whether weight or volume is the constraining factor for a truck load. Compare weight fill and cube fill to optimize load planning and avoid capacity waste.
Every load is constrained by either weight or volume — and knowing which one determines how to optimize. A truck hauling feathers will "cube out" (fill all volume) long before it "weighs out" (hits the weight limit). Steel does the opposite. Most freight falls somewhere between these extremes.
A standard 53-foot dry van has roughly 3,000 cubic feet of space and a payload capacity of about 44,000 lbs (depending on tractor weight). If your freight weighs 30,000 lbs but only fills 1,200 cubic feet, you're at 68% weight but only 40% volume — weight is the constraint and there's cube space going to waste.
This calculator compares weight and volume utilization to identify the constraining factor. Use it for load planning, rate negotiations (low-density freight should attract higher rates), and mixed-load optimization.
Supply-chain managers, warehouse operators, and shipping coordinators rely on precise vehicle capacity (weight & volume) data to maintain efficiency and control costs across complex distribution networks. Revisit this calculator whenever conditions change to keep your logistics plans aligned with real-world performance.
Shipping a half-empty trailer wastes capacity. If weight is the constraint, seek lighter companion freight. If volume is the constraint, consider denser products or compression. Understanding the constraining factor enables smarter load building and better rate decisions. Real-time recalculation lets you model different scenarios quickly, ensuring your logistics decisions are backed by accurate, up-to-date numbers.
Weight Fill % = (Actual Weight / Max Payload) × 100 Volume Fill % = (Actual Volume / Max Volume) × 100 Constraining Factor = The higher percentage (it will hit 100% first) Density = Weight / Volume (lbs per cubic foot)
Result: Weight: 72.7%, Volume: 80.0% — Volume is constraining
Weight fill: 32,000 / 44,000 = 72.7%. Volume fill: 2,400 / 3,000 = 80.0%. Volume is the constraining factor — the trailer will fill up before reaching the weight limit. Remaining capacity: 12,000 lbs and 600 cu ft. Freight density: 13.3 lbs/cu ft.
Many carriers now use density-based pricing for LTL shipments. Freight in classes 50-85 (dense) gets lower per-pound rates. Classes 100-500 (light) get progressively higher rates. Understanding your freight density helps predict costs and negotiate better rates with carriers.
Advanced load planning software optimizes truck fill by combining orders of different densities. The algorithm maximizes both weight and volume utilization while respecting delivery constraints. This can improve effective capacity by 10-20% without adding trucks.
Poor packaging wastes cube space: oversized boxes, non-stackable pallets, and excessive void fill all reduce volume utilization. Investing in right-sized packaging can increase the number of units per trailer by 15-25%, significantly reducing per-unit transportation cost.
Cubing out means the trailer's volume is full before the weight limit is reached. This happens with low-density freight like paper products, empty containers, or bulky packaging. The unused weight capacity represents potential revenue left on the table.
Weighing out means the weight limit is hit before the volume is full. This happens with dense freight like metals, liquids, or stone products. The unused cube space could accommodate lighter freight if mixed loading is possible.
Low-density freight (under 10 lbs/cu ft) costs more per pound to ship because it wastes weight capacity. LTL carriers use dimensional weight pricing to account for this. Truckload carriers build density into their per-mile rates for consistent shippers.
Yes, and this is a key LTL carrier strategy. Heavy, dense freight is loaded on the bottom with lighter, bulky freight on top. This maximizes both weight and volume utilization. For truckload, combining orders from different shippers achieves the same optimization.
The "sweet spot" density for a 53-foot trailer is about 14-15 lbs/cu ft — this fills both weight (44,000 lbs) and volume (3,000 cu ft) simultaneously. Freight at this density maximizes carrier revenue per trailer.
A 53' reefer has ~2,500 cu ft (less due to insulation) and ~42,000 lbs payload. A 48' trailer has ~2,700 cu ft. Flatbeds have no volume limit but lower weight capacity. Always use your specific equipment specs.