Convert Watts per Meter-Kelvin to Watts per Centimeter-Kelvin
Instantly convert Watts per Meter-Kelvin (W/(m·K)) to Watts per Centimeter-Kelvin (W/(cm·K)) with our free online calculator.
Formula: W/(m·K) to W/(cm·K) — multiply by 0.01
Reference Table
| Watts per Meter-Kelvin (W/(m·K)) | Watts per Centimeter-Kelvin (W/(cm·K)) |
|---|---|
| 1 | 0.01 |
| 5 | 0.05 |
| 10 | 0.1 |
| 25 | 0.25 |
| 50 | 0.5 |
| 100 | 1 |
How to Convert Watts per Meter-Kelvin to Watts per Centimeter-Kelvin
Formula
To convert Watts per Meter-Kelvin (W/(m·K)) to Watts per Centimeter-Kelvin (W/(cm·K)): multiply by 0.01
Step-by-Step
- Start with your value in Watts per Meter-Kelvin (W/(m·K)).
- Multiply by 0.01 to perform the conversion.
- The result is your value expressed in Watts per Centimeter-Kelvin (W/(cm·K)).
Conversion Factor
1 W/(m·K) = 0.01 W/(cm·K)
Reverse Factor
1 W/(cm·K) = 100 W/(m·K)
Worked Example
Convert 25 Watts per Meter-Kelvin to Watts per Centimeter-Kelvin: 25 W/(m·K) = 0.25 W/(cm·K)
About Watt per Meter-Kelvin (W/(m·K))
The SI unit of thermal conductivity k (ISO 80000-5 §5-9) — the rate of heat flow through a unit thickness of material per unit cross-sectional area per unit temperature gradient, defined by Fourier's law of heat conduction q = −k·∇T. W/(m·K) is the universal reference for steady-state and transient heat-conduction calculations, material selection for thermal management, building-envelope insulation design, and thermal-interface-material specification. Reference values per ASM Handbook and NIST: silver 429 W/(m·K, the highest of common metals); copper 401; aluminum 237; brass 109; carbon steel 50; stainless 304 16; titanium Ti-6Al-4V 6.7; glass 1.0; concrete 1.0-1.7; wood 0.12-0.17 (parallel to grain) / 0.04-0.05 (perpendicular); air at 25 °C 0.026 (this single value is why fiberglass / cellulose / aerogel insulation work — they immobilize air); polystyrene foam (EPS, XPS) 0.030-0.040; fiberglass batt 0.040; aerogel (Aspen Spaceloft) 0.015 — the lowest of common engineering materials. Every CFD solver, thermal-analysis tool (Ansys Mechanical Thermal, COMSOL Heat Transfer, ABAQUS), and building-energy simulation (EnergyPlus, IES VE, DesignBuilder per ASHRAE 90.1 compliance) uses W/(m·K).
About Watt per Centimeter-Kelvin (W/(cm·K))
A thermal-conductivity unit equal to exactly 100 W/(m·K), used in semiconductor packaging engineering, thermoelectric materials research, and ultra-high-conductivity material characterization where W/(m·K) values would be inconveniently large. Reference values: diamond (single-crystal CVD) 10-22 W/(cm·K) — the highest natural-material thermal conductivity known, exploited in laser heatsink applications and CPU integrated heat-spreader research; graphene single-layer 30-50 W/(cm·K) (highest measured of any 2D material per Nature Materials papers); pyrolytic-graphite in-plane direction 16-19 W/(cm·K); silicon carbide (SiC) for high-power semiconductors 3.7 W/(cm·K). Solid-state-device thermal-interface-material (TIM) datasheets per JEDEC JESD51-series thermal-test standards, semiconductor-package thermal-resistance specifications, and thermoelectric figure-of-merit ZT calculations sometimes use W/(cm·K) for compactness. Convert W/(cm·K) to W/(m·K) by multiplying by 100; to BTU/(hr·ft·°F) by multiplying by 57.78.
Quick Facts
- 1 Watt per Meter-Kelvin equals 0.01 Watts per Centimeter-Kelvin
- 1 Watt per Centimeter-Kelvin equals 100 Watts per Meter-Kelvin
- Watt per Meter-Kelvin is a unit of thermal conductivity
- Watt per Centimeter-Kelvin is a unit of thermal conductivity
- This conversion is commonly used in insulation design, heat exchanger engineering, and material science
- The Watt per Meter-Kelvin belongs to the metric system
Common Watt per Meter-Kelvin to Watt per Centimeter-Kelvin Conversions
| Watts per Meter-Kelvin (W/(m·K)) | Watts per Centimeter-Kelvin (W/(cm·K)) |
|---|---|
| 0.01 | 0.0001 |
| 0.1 | 0.001 |
| 0.25 | 0.0025 |
| 0.5 | 0.005 |
| 1 | 0.01 |
| 2 | 0.02 |
| 3 | 0.03 |
| 5 | 0.05 |
| 10 | 0.1 |
| 15 | 0.15 |
| 20 | 0.2 |
| 25 | 0.25 |
| 50 | 0.5 |
| 75 | 0.75 |
| 100 | 1 |
| 250 | 2.5 |
| 500 | 5 |
| 1000 | 10 |
| 5000 | 50 |
| 10000 | 100 |
Understanding Watts per Meter-Kelvin
The Watt per Meter-Kelvin (symbol: W/(m·K)) is a unit of thermal conductivity. The SI unit of thermal conductivity k (ISO 80000-5 §5-9) — the rate of heat flow through a unit thickness of material per unit cross-sectional area per unit temperature gradient, defined by Fourier's law of heat conduction q = −k·∇T. W/(m·K) is the universal reference for steady-state and transient heat-conduction calculations, material selection for thermal management, building-envelope insulation design, and thermal-interface-material specification. Reference values per ASM Handbook and NIST: silver 429 W/(m·K, the highest of common metals); copper 401; aluminum 237; brass 109; carbon steel 50; stainless 304 16; titanium Ti-6Al-4V 6.7; glass 1.0; concrete 1.0-1.7; wood 0.12-0.17 (parallel to grain) / 0.04-0.05 (perpendicular); air at 25 °C 0.026 (this single value is why fiberglass / cellulose / aerogel insulation work — they immobilize air); polystyrene foam (EPS, XPS) 0.030-0.040; fiberglass batt 0.040; aerogel (Aspen Spaceloft) 0.015 — the lowest of common engineering materials. Every CFD solver, thermal-analysis tool (Ansys Mechanical Thermal, COMSOL Heat Transfer, ABAQUS), and building-energy simulation (EnergyPlus, IES VE, DesignBuilder per ASHRAE 90.1 compliance) uses W/(m·K).
It belongs to the metric measurement system.
Watts per Meter-Kelvin are commonly used in insulation design, heat exchanger engineering, and material science.
Understanding Watts per Centimeter-Kelvin
The Watt per Centimeter-Kelvin (symbol: W/(cm·K)) is a unit of thermal conductivity. A thermal-conductivity unit equal to exactly 100 W/(m·K), used in semiconductor packaging engineering, thermoelectric materials research, and ultra-high-conductivity material characterization where W/(m·K) values would be inconveniently large. Reference values: diamond (single-crystal CVD) 10-22 W/(cm·K) — the highest natural-material thermal conductivity known, exploited in laser heatsink applications and CPU integrated heat-spreader research; graphene single-layer 30-50 W/(cm·K) (highest measured of any 2D material per Nature Materials papers); pyrolytic-graphite in-plane direction 16-19 W/(cm·K); silicon carbide (SiC) for high-power semiconductors 3.7 W/(cm·K). Solid-state-device thermal-interface-material (TIM) datasheets per JEDEC JESD51-series thermal-test standards, semiconductor-package thermal-resistance specifications, and thermoelectric figure-of-merit ZT calculations sometimes use W/(cm·K) for compactness. Convert W/(cm·K) to W/(m·K) by multiplying by 100; to BTU/(hr·ft·°F) by multiplying by 57.78.
It belongs to the metric measurement system.
Watts per Centimeter-Kelvin are commonly used in insulation design, heat exchanger engineering, and material science.
Why Convert Watts per Meter-Kelvin to Watts per Centimeter-Kelvin?
Converting between Watts per Meter-Kelvin and Watts per Centimeter-Kelvin is a frequent requirement for engineers, scientists, and students working with thermal conductivity values. Different industries and regions favour different unit systems, so having a dependable conversion tool saves time and prevents errors in technical calculations. Whether you are verifying a specification sheet, cross-checking simulation results, or preparing a report for an international audience, accurate thermal conductivity conversion is essential.
Frequently Asked Questions
How do I convert Watts per Meter-Kelvin to Watts per Centimeter-Kelvin?
The SI unit of thermal conductivity k (ISO 80000-5 §5-9) — the rate of heat flow through a unit thickness of material per unit cross-sectional area per unit temperature gradient, defined by Fourier's law of heat conducti... To convert Watts per Meter-Kelvin to Watts per Centimeter-Kelvin, multiply by 0.01. For example, 25 W/(m·K) equals 0.25 W/(cm·K).
How many Watts per Centimeter-Kelvin are in 1 Watt per Meter-Kelvin?
There are 0.01 Watts per Centimeter-Kelvin in 1 Watt per Meter-Kelvin.
How many Watts per Meter-Kelvin are in 1 Watt per Centimeter-Kelvin?
There are 100 Watts per Meter-Kelvin in 1 Watt per Centimeter-Kelvin.
What is the formula for Watt per Meter-Kelvin to Watt per Centimeter-Kelvin conversion?
The formula is: multiply by 0.01. This means 1 W/(m·K) = 0.01 W/(cm·K).
Is a Watt per Meter-Kelvin bigger than a Watt per Centimeter-Kelvin?
Yes. One Watt per Meter-Kelvin is larger than one Watt per Centimeter-Kelvin because 1 W/(m·K) equals 0.01 W/(cm·K), which is less than 1.
When do you need to convert between Watts per Meter-Kelvin and Watts per Centimeter-Kelvin?
A thermal-conductivity unit equal to exactly 100 W/(m·K), used in semiconductor packaging engineering, thermoelectric materials research, and ultra-high-conductivity material characterization where W/(m·K) values would b... Watt per Meter-Kelvin and Watt per Centimeter-Kelvin are both thermal conductivity units, so conversion comes up whenever one source of information uses one unit and another uses the other — a classic cross-reference challenge in engineering, trade, travel, and everyday life.