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HomeConvertersMaterial Densitycubic meter -> kilogramsteel

Structural steel: cubic meter to kilogram Converter

Convert cubic meter to kilogram for Structural steel. Density 7850 kg/m³. Compare all Metal materials, see reference quantities, density ranges, and grade-specific values.

Structural steel m3 to kg

Structural steel is converted through material density, so this page is different from a normal m3 to kg unit converter.
Engineering, fabrication, machining, and procurement teams use this conversion when the material choice changes the answer and a generic volume or weight conversion would be wrong.
The calculation uses 7850 kg/m3 as the typical density, with source-aware unit factors, and keeps the practical range visible when a density band is available.

Computed result

1 m3 to kg

8 000 kg

Structural steel: 1 m3 becomes 8 000 kg.

Reverse check

8 000 kg back to m3

1 m3

Reverse check returns approximately 1 m3 for Structural steel.

All output units

Same Structural steel calculation shown across compatible weight output units, including bulk and industrial units when relevant.

unitoutput
kg8 000 kg
g8 000 000 g
mg8 000 000 000 mg
lb20 000 lb
oz300 000 oz
tonne8 tonne
ton9 ton
longton8 longton
cwt200 cwt
stone1 000 stone
quintal80 quintal

Formula

output=inputvolume×volumefactor×density/massfactor\text{output} = input_volume \times volume_factor \times \text{density} / mass_factoroutput=inputv​olume×volumef​actor×density/massf​actor

Calculation steps

Convert volume: 1 m3 x 1 = 1 m3.
Apply density: 1 m3 x 7850 kg/m3 = 7 850 kg.
Convert mass: 7 850 kg / 1 = 8 000 kg.
Sig-fig compliance: output rounded to 1 significant figures from the entered value.

Unit breakdown

m3 is first normalized with the registered unit factor before density is applied.
kg is applied only after the density step, so mixed volume-weight conversions remain dimensionally honest.
This protects the page from pretending that m3 and kg have a fixed relationship without knowing the material.

Unit and density definitions

m3 means cubic meter in the material-density registry.
kg means kilogram in the material-density registry.
The bridge between them is Structural steel density, not a direct unit factor.

Material comparison

Compares Structural steel with nearby metal materials for the same input.

Material comparison

Compares Structural steel with nearby metal materials for the same input.

itemvaluenote
Structural steel7,850-
Steel ASTM A367,850-
Steel 10457,850-
Steel 41407,850-
Tool steel7,850-

Density range and precision

Using the material density range, 1 m3 can land between 8 000 and 8 000 kg.
Source confidence: engineering estimate.
Common structural steel estimate.
Use supplier, lab, or contract-specific density for critical work.

Nearby values

Nearby values around 1 m3.

inputoutput
0.5 m34 000 kg
1 m38 000 kg
1.5 m312 000 kg
2 m320 000 kg

Density range table

Low, typical, and high density cases for Structural steel.

Shows how much the answer moves when density varies for Structural steel.

density_casedensity_kg_m3output
low7,7507 750 kg
typical7,8507 850 kg
high8,0508 050 kg

Output scale

Visual Analysis1 series6 points

Computed output curve for Structural steel using 7850 kg/m3 and representative m3 values for this unit family.

Trend
Upward
Min
785
Max
196.3K
Insight
Structural steel typical density shows an upward pattern, with a visible peak around 25 at 196.3K.
78549.7K98.5K147.4K196.3K0.10.5151025
X-axis: m3Y-axis: kg

Output scale

Conversion graph path

  1. 1m3Normalize the entered unit to the SI base side.
  2. 2densityApply Structural steel density: 7850 kg/m3.
  3. 3kgConvert the computed SI result into the selected output unit.

Real-world context

Structural steel uses 7850 kg/m3 as the typical density on this page.
Use the result for fabrication estimates, shipping checks, and rough material takeoffs.
For certified work, use the alloy or grade density from the material specification.

Metric and imperial context

m3 is treated as a metric unit and kg is treated as a metric unit.
The calculation stays within one measurement system after the density bridge.
For tonne versus ton pages, the output unit label is especially important because metric tonnes and US short tons are not the same.

Contextual examples

Estimate part, plate, billet, or stock weight from volume.
Check freight and procurement quantities before a formal quote.
Replace the typical density with grade-specific density for engineering work.

Common mistakes

Do not treat m3 to kg as a fixed conversion without selecting Structural steel or another material.
Do not mix US short tons and metric tonnes; they are different output units.
Do not use water density for fuels, soil, concrete, grain, metals, or powders.
Do not use pure-metal density for an alloy if the alloy grade is known.

Industry applications

Structural steel volume-to-weight pages help with fabrication, procurement, freight, and machining estimates.
Grade-specific density should be used whenever the engineering specification is known.

User tips

Use batch mode when you have many metal rows to clean at once.
Use all equivalents before copying a result into a spreadsheet or quote.
Open source audit when the density range or confidence level affects the decision.
Compare materials if Structural steel may be substituted with another metal material.

Notable value context

Structural steel typical density: 7850 kg/m3.
This is a high-density material; small volumes can become large weights quickly.
The listed density band spans 7750-8050 kg/m3.

Confusion to avoid

m3 to kg is not a universal conversion. It only makes sense after selecting Structural steel or another material.
Bulk density is different from solid particle density for powders, soil, grain, gravel, and many construction materials.
If the material is wet, compacted, aerated, hot, cold, or a different grade, use the density range or supplier density rather than a single typical value.

Related unit paths

Related material conversions

FAQ

Q: Why does Structural steel need its own converter?
A: Because m3 to kg depends on density. Structural steel uses 7850 kg/m3 here, while another material can produce a very different weight.
Q: What density is used for Structural steel?
A: The typical density is 7850 kg/m3. The listed practical range is 7750-8050 kg/m3.
Q: Why can the result vary?
A: Common structural steel estimate. The main variation drivers are alloy composition, grade, and specification.
Q: Is kg the same as every ton unit?
A: No. US short tons and metric tonnes are different. Always check the selected output unit.
Q: Can I use this for contracts?
A: Use it for planning and checking. Contract, safety, freight, or lab work should use supplier, lab, or specification density.
Q: What is the formula?
A: Mass equals volume multiplied by density. The engine also converts the selected units before and after the density step.
Q: What makes this page different from a normal converter?
A: A normal converter changes units inside one dimension. This page crosses volume and weight by using a material density source.
Q: What should I compare next?
A: Compare Structural steel against nearby metal materials, or switch the output unit to see the same result in another weight or volume unit.
Q: Why is source confidence shown?
A: It tells you whether the density is a reference value, engineering estimate, or variable bulk estimate.

All materials — 1 cubic meter to kilogram

1071 materials sorted by weight per 1 cubic meter. Heavier materials appear first.

MaterialCategoryDensity1 m3 in kgConfidence
OsmiumMetal22590 kg/m³20 000 kgreference
Osmium metal solidMetal22590 kg/m³20 000 kgengineering estimate
IridiumMetal22560 kg/m³20 000 kgreference
Iridium metal solidMetal22560 kg/m³20 000 kgengineering estimate
PlatinumMetal21450 kg/m³20 000 kgreference
Platinum metal solidMetal21450 kg/m³20 000 kgengineering estimate
Rhenium metal solidMetal21020 kg/m³20 000 kgengineering estimate
GoldMetal19320 kg/m³20 000 kgreference
TungstenMetal19300 kg/m³20 000 kgreference
Tantalum metal solidMetal16690 kg/m³20 000 kgengineering estimate
TantalumMetal16650 kg/m³20 000 kgreference
Tungsten carbideMetal15000 kg/m³20 000 kgvariable
Hafnium metal solidMetal13310 kg/m³10 000 kgengineering estimate
RhodiumMetal12410 kg/m³10 000 kgreference
Rhodium metal solidMetal12410 kg/m³10 000 kgengineering estimate
Ruthenium metal solidMetal12370 kg/m³10 000 kgengineering estimate
Palladium metal solidMetal12023 kg/m³10 000 kgengineering estimate
PalladiumMetal12020 kg/m³10 000 kgreference
LeadMetal11340 kg/m³10 000 kgreference
Lead (pure)Metal11340 kg/m³10 000 kgengineering estimate
Lead antimony alloyMetal10800 kg/m³10 000 kgengineering estimate
SilverMetal10490 kg/m³10 000 kgreference
MolybdenumMetal10280 kg/m³10 000 kgreference
Molybdenum metal solidMetal10280 kg/m³10 000 kgengineering estimate
Bismuth metal solidMetal9790 kg/m³10 000 kgengineering estimate
CopperMetal8960 kg/m³9 000 kgreference
Cupronickel 70/30Metal8950 kg/m³9 000 kgengineering estimate
Copper C110Metal8940 kg/m³9 000 kgengineering estimate
Cupronickel 90/10Metal8940 kg/m³9 000 kgengineering estimate
Bronze 932Metal8930 kg/m³9 000 kgengineering estimate
NickelMetal8900 kg/m³9 000 kgreference
CobaltMetal8900 kg/m³9 000 kgreference
Cobalt metal solidMetal8900 kg/m³9 000 kgengineering estimate
Hastelloy C276Metal8890 kg/m³9 000 kgengineering estimate
Hastelloy C-276Metal8890 kg/m³9 000 kgengineering estimate
Monel 400Metal8830 kg/m³9 000 kgengineering estimate
BronzeMetal8800 kg/m³9 000 kgvariable
Monel 400Metal8800 kg/m³9 000 kgengineering estimate
Phosphor bronzeMetal8800 kg/m³9 000 kgengineering estimate
Phosphor bronzeMetal8780 kg/m³9 000 kgengineering estimate
Nickel silverMetal8700 kg/m³9 000 kgengineering estimate
NiobiumMetal8570 kg/m³9 000 kgreference
Niobium metal solidMetal8570 kg/m³9 000 kgengineering estimate
Brass 70/30 (cartridge)Metal8530 kg/m³9 000 kgengineering estimate
BrassMetal8500 kg/m³9 000 kgvariable
Brass 360Metal8500 kg/m³9 000 kgengineering estimate
Tin-lead solder 60/40Metal8500 kg/m³9 000 kgengineering estimate
Inconel 625Metal8440 kg/m³8 000 kgengineering estimate
Inconel 625Metal8440 kg/m³8 000 kgengineering estimate
NichromeMetal8400 kg/m³8 000 kgengineering estimate
Solder 63/37Metal8400 kg/m³8 000 kgengineering estimate
CinnabarMineral8100 kg/m³8 000 kgvariable
Invar 36Metal8050 kg/m³8 000 kgengineering estimate
Stainless steel 304Metal8000 kg/m³8 000 kgengineering estimate
Stainless steel 316Metal8000 kg/m³8 000 kgengineering estimate
Stainless steel 304LMetal8000 kg/m³8 000 kgengineering estimate
Stainless steel 316LMetal8000 kg/m³8 000 kgengineering estimate
Steel 1018Metal7870 kg/m³8 000 kgengineering estimate
Structural steelMetal7850 kg/m³8 000 kgengineering estimate
Steel ASTM A36Metal7850 kg/m³8 000 kgengineering estimate
Steel 1045Metal7850 kg/m³8 000 kgengineering estimate
Steel 4140Metal7850 kg/m³8 000 kgengineering estimate
Tool steelMetal7850 kg/m³8 000 kgengineering estimate
Spring steelMetal7850 kg/m³8 000 kgengineering estimate
Duplex stainless 2205Metal7800 kg/m³8 000 kgengineering estimate
Super duplex stainless 2507Metal7800 kg/m³8 000 kgengineering estimate
Stainless steel 430Metal7750 kg/m³8 000 kgengineering estimate
Tool steel D2Metal7700 kg/m³8 000 kgengineering estimate
Electrical steelMetal7650 kg/m³8 000 kgengineering estimate
Galena mineralMineral7600 kg/m³8 000 kgvariable
Aluminium bronzeMetal7600 kg/m³8 000 kgengineering estimate
WolframiteMineral7500 kg/m³8 000 kgvariable
Babbitt metalMetal7400 kg/m³7 000 kgvariable
Galena oreMineral7400 kg/m³7 000 kgvariable
Babbitt bearing metalMetal7400 kg/m³7 000 kgengineering estimate
Lead-free solderMetal7400 kg/m³7 000 kgengineering estimate
TinMetal7310 kg/m³7 000 kgreference
Indium metal solidMetal7310 kg/m³7 000 kgengineering estimate
PewterMetal7300 kg/m³7 000 kgvariable
Alnico magnet alloyMetal7300 kg/m³7 000 kgvariable

Showing 80 of 1,071 rows for Material.

Materials ranked by weight per cubic meter

Visual Analysis1 series20 points

Top 20 materials by weight per 1 cubic meter. Structural steel highlighted.

Trend
Downward
Min
11.3K
Max
22.6K
Insight
kg per 1 m3 shows a downward pattern, with a visible peak around Osmium at 22.6K.
11.3K14.2K17.0K19.8K22.6K00000000
X-axis: kgY-axis: Material

Materials ranked by weight per cubic meter

Common cubic meter to kilogram values — Structural steel

Structural steel at 7850 kg/m³.

Quantitycubic meterkilogram
0.1 m³0.1 m3800 kg
0.5 m³0.5 m34 000 kg
1 m³1 m38 000 kg
2 m³2 m320 000 kg
5 m³5 m340 000 kg
10 m³10 m379 000 kg
20 m³20 m3160 000 kg
50 m³50 m3390 000 kg

cubic meter to kilogram — by material category

Weight per 1 cubic meter grouped by material category.

CategoryMin weightAvg weightMax weightMaterials
Polymer12 kg906.7184466 kg2 200 kg103
Food120 kg863.97413793 kg1 420 kg116
Fuel280 kg855.81481481 kg1 550 kg27
Wood130 kg602.26666667 kg1 100 kg75
Agriculture55 kg592.2 kg1 250 kg125
Gas0.0899 kg435.51397059 kg3 170 kg51
Metal480 kg8 913.36448598 kg22 590 kg107
Mineral14 kg2 482.61363636 kg8 100 kg176
Fluid655 kg1 007.8 kg1 840 kg90
Construction24 kg1 474.44278607 kg3 300 kg201

Heaviest and lightest materials per cubic meter

Heaviest per 1 m3: Osmium (20 000 kg), Osmium metal solid (20 000 kg), Iridium (20 000 kg).
Lightest per 1 m3: Hydrogen gas at STP (0.09 kg), Helium gas (0.2 kg), Helium gas at STP (0.2 kg).
The density range across all materials spans from 0.1786 to 22 590 kg per 1 m3 — a 126484× difference.

Structural steel: cubic meter to kilogram

This unit-pair page explains cubic meter to kilogram for Structural steel.
The answer depends on density (7850 kg/m3), so the page compares material-specific outcomes.

1 cubic meter of Structural steel

1 m3 to kg

8 000 kg

cubic meter to kilogram industry context

cubic meter to kilogram is a material-sensitive path used when volume orders must become weight, payload, freight, or procurement quantities.
Metal materials can vary widely, so this page compares the selected material against the full registry.

m3 to kg density formula

mass = volume x density, or volume = mass / density,For Structural steel, density = 7850 kg/m3.,Normalize m3 first, apply density, then convert into kg.

cubic meter to kilogram mistakes

Do not use a generic unit converter when converting between volume and mass.
Do not treat Structural steel density as fixed when grade, moisture, packing, temperature, or supplier condition can change it.
Do not use rounded density values for billing, safety, transport compliance, or structural design without project data.

cubic meter to kilogram FAQ

What density is used for Structural steel? The typical density is 7850 kg/m3, with source confidence engineering estimate.
Why does m3 to kg need a material? Volume and mass are connected by density; changing the material changes the answer.
Should I use the density range? Use the range when moisture, grade, packing, temperature, concentration, or supplier variation affects the project.

Related unit pairs

Related metal materials

Structural steelMetalCopperMetal
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Release 2.5Market: India
22.56965941tonne

Concrete, normal weight: 12.3 yd3 becomes 22.56965941 tonne.

Density:2400 kg/m3Range:2200-2500 kg/m3Confidence:variablePractical range:20.68885446 - 23.51006188 tonne

Density is variable; use supplier, lab, or contract-specific density for critical work.

Density source & professional warnings

Variable bulk-density estimate. Common reinforced concrete estimate.

Use supplier, lab, or contract-specific density for critical work.

Material densities are planning estimates. Moisture, temperature, compaction, alloy composition, and product grade can change real shipment or engineering values. Use supplier or lab density for contract-critical work.

Derivation steps
  1. Convert volume: 12.3 yd3 x 0.764554857984 = 9.40402475 m3.
  2. Apply density: 9.40402475 m3 x 2400 kg/m3 = 22 569.65940769 kg.
  3. Convert mass: 22 569.65940769 kg / 1000 = 22.56965941 tonne.
  4. Sig-fig compliance is off; display uses practical precision.