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Acids & bases

Formic acid · HCOOH

Formic acid (HCOOH) is an acid; this page gives computed density and dynamic viscosity for aqueous solutions from 5–60 wt% and 15–55 °C.

Values are computed from the Laliberté (2009) aqueous-electrolyte correlation and tabulated over 560 wt% and 1555 °C.

Also known as
Methanoic acid, Aminic acid
CAS number
64-18-6
Tabulated range
560 wt% · 1555 °C
Properties
Density · Dynamic viscosity · Specific gravity
At 20 wt% · 20 °C
reference snapshot
Density
1047.2kg/m³
Density
1.0472g/cm³
Specific gravity
1.049
Viscosity
1.120cP
Explore

Read a value at any point

Move the sliders to interpolate between the tabulated grid points. The readout and chart never go outside the validated 560 wt% and 1555 °C range, and every number is interpolated from the committed table below — nothing is computed from a chemistry model in your browser.

Interactive explorer

Values are interpolated between the tabulated grid points below — sliders stay within the validated 560 wt% and 1555 °C range.

33 wt%
20 °C
Density
1078.1 kg/m³
Density
1.0781 g/cm³
Specific gravity
1.080
Dynamic viscosity
1.210 cP
Density (kg/m³) vs wt% HCOOH at 20 °C — Formic acid.
Why it matters

What the numbers tell you

At 20 wt% and 20 °C, aqueous formic acid has a density of about 1047 kg/m³ (1.047 g/cm³) — roughly 1.05× the density of water. It also has a dynamic viscosity of about 1.120 cP, against roughly 1 cP for water at the same temperature. Those differences carry straight into volume-to-mass conversions, pump and pipe sizing.

Common grades

A few working strengths

Properties at 20 °C for a handful of concentrations in everyday use, read from the committed grid (interpolated between tabulated points where a grade falls between them). The full table follows below.

wt% HCOOH°CDensity kg/m³SGViscosity cP
10201022.81.0251.058
30201071.01.0731.188
50201117.31.1191.339
60201139.61.1421.423
Sources

Where the numbers come from

Every value on this page is computed by a deterministic model — none is entered by hand. The generating method and the references it is checked against:

  • Laliberte, M. (2009). A Model for Calculating the Heat Capacity of Aqueous Solutions, with Updated Density and Viscosity Data. J. Chem. Eng. Data 54(6), 1725-1760. doi:10.1021/je8008123
  • CRC Handbook of Chemistry and Physics - Concentrative Properties of Aqueous Solutions (density and viscosity at 20 degC; primary data Wolf, A.V., 1966)

Model: thermo==0.4.0 (chemicals==1.3.0) - Laliberte 2009 electrolyte correlation · Generated 2026-06-07

The committed data file for this page is published as JSON on GitHub under CC BY 4.0.

Validation

Checked against a cited value

The model is cross-checked at one independently cited reference point. The page is published only because this check passes.

Property / pointDensity · 20 wt% · 20 °C
Cited reference value1046.7 kg/m3
Model computed1047.15 kg/m3
Error vs reference0.043% (tolerance 1%)

CRC Handbook of Chemistry and Physics - Concentrative Properties of Aqueous Solutions. CRC Handbook of Chemistry and Physics, Concentrative Properties of Aqueous Solutions (all data at 20 degC; primary data Wolf, A.V., Aqueous Solutions and Body Fluids, Hoeber, 1966), formic acid: 20.0 mass % at 20 degC = 1.0467 g/cm3.

Full tables

Every tabulated point

Rows are temperature (°C); columns are concentration (wt% HCOOH). Read the cell at the intersection. Specific gravity is density divided by the model water reference of 998.2 kg/m³ at 20 °C.

Density kg/m³
°C \ wt%51015202530354045505560
151011.81024.41036.91049.41061.71074.01086.11098.01109.91121.61133.11144.5
201010.61022.81035.01047.21059.21071.01082.81094.51106.01117.31128.51139.6
251009.11021.11032.91044.71056.41068.01079.51090.81102.01113.01124.01134.7
301007.41019.11030.71042.21053.61064.81076.01087.11098.01108.81119.41129.9
351005.51016.91028.21039.41050.61061.61072.51083.31094.01104.51114.91125.1
401003.41014.61025.61036.61047.51058.31068.91079.51089.91100.21110.41120.4
451001.21012.11022.91033.61044.31054.81065.31075.61085.91096.01106.01115.8
50998.81009.51020.11030.61041.01051.41061.61071.81081.81091.71101.61111.3
55996.21006.71017.11027.41037.71047.81057.91067.91077.81087.61097.21106.8
Dynamic viscosity cP (mPa·s)
°C \ wt%51015202530354045505560
151.1661.1971.2291.2631.2981.3351.3741.4141.4561.4991.5441.590
201.0291.0581.0891.1201.1541.1881.2241.2611.2991.3391.3811.423
250.9160.9440.9731.0021.0331.0651.0981.1331.1681.2051.2431.283
300.8220.8480.8750.9030.9320.9620.9931.0251.0581.0921.1271.164
350.7430.7680.7930.8190.8460.8740.9030.9330.9630.9951.0271.061
400.6760.6990.7230.7480.7730.7990.8260.8530.8820.9110.9420.973
450.6180.6400.6630.6860.7100.7340.7590.7850.8110.8390.8670.896
500.5680.5890.6100.6320.6540.6770.7010.7250.7500.7750.8020.829
550.5250.5450.5650.5850.6060.6280.6500.6720.6960.7200.7450.770
Typical values

Formic acid solution properties at 25 °C

At 25 °C, 10 wt% formic acid has a density of about 1021.1 kg/m³ and a dynamic viscosity of about 0.944 cP. At 25 °C, 50 wt% formic acid has a density of about 1113.0 kg/m³ and a dynamic viscosity of about 1.205 cP. At 25 °C, 60 wt% formic acid has a density of about 1134.7 kg/m³ and a dynamic viscosity of about 1.283 cP.

Limitations

Before you use these numbers

  • Laliberte (2009) aqueous-electrolyte correlation for formic acid-water, density and viscosity. Tabulated for 5-60 wt% over 15-55 degC, within the correlation's fitted window. Formic acid is miscible with water in all proportions; the table is capped at 60 wt% to stay within the concentration range carried by the cited reference density data. Heat capacity is not tabulated: the correlation's formic-acid heat-capacity data covers only dilute solutions (to about 12 wt%), so it is omitted rather than extrapolated. Values are for preliminary design; verify against vendor data for critical service.
  • Values are tabulated only inside the 560 wt% and 1555 °C ranges shown; the correlation is not extrapolated beyond them here.
  • Figures are for a pure formic acid–water system. Commercial grades contain impurities (for example chloride in some caustic grades) that shift density and viscosity; check the supplier's data sheet for a specific product.
  • Use for preliminary design; verify for critical service.
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