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Technical Atmosphere to Kilopound per Square Inch Converter

Convert technical atmospheres to kilopounds per square inch with our free online pressure converter.

Quick Answer

1 Technical Atmosphere = 0.014223 kilopounds per square inch

Formula: Technical Atmosphere Γ— conversion factor = Kilopound per Square Inch

Use the calculator below for instant, accurate conversions.

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All conversion formulas on UnitsConverter.io have been verified against NIST (National Institute of Standards and Technology) guidelines and international SI standards. Our calculations are accurate to 10 decimal places for standard conversions and use arbitrary precision arithmetic for astronomical units.

Last verified: February 2026Reviewed by: Sam Mathew, Software Engineer

Technical Atmosphere to Kilopound per Square Inch Calculator

How to Use the Technical Atmosphere to Kilopound per Square Inch Calculator:

  1. Enter the value you want to convert in the 'From' field (Technical Atmosphere).
  2. The converted value in Kilopound per Square Inch will appear automatically in the 'To' field.
  3. Use the dropdown menus to select different units within the Pressure category.
  4. Click the swap button (β‡Œ) to reverse the conversion direction.
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How to Convert Technical Atmosphere to Kilopound per Square Inch: Step-by-Step Guide

Converting Technical Atmosphere to Kilopound per Square Inch involves multiplying the value by a specific conversion factor, as shown in the formula below.

Formula:

ksi = at Γ— 0.0142233

Example Calculation:

1 at = 0.014223 ksi

Disclaimer: For Reference Only

These conversion results are provided for informational purposes only. While we strive for accuracy, we make no guarantees regarding the precision of these results, especially for conversions involving extremely large or small numbers which may be subject to the inherent limitations of standard computer floating-point arithmetic.

Not for professional use. Results should be verified before use in any critical application. View our Terms of Service for more information.

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What is a Technical Atmosphere and a Kilopound per Square Inch?

1 at = 1 kgf/cmΒ² = 98,066.5 Pa = 98.07 kPa = 0.9807 bar = 0.968 atm = 14.223 PSI = 735.6 mmHg

Symbol: at (from German "technische AtmosphΓ€re")

Also written as: kgf/cmΒ², kg/cmΒ², technical atmosphere, metric atmosphere (not standard atmosphere!)

Physical meaning: Pressure exerted by 1 kilogram-force over 1 square centimeter

1 ksi = 1,000 PSI = 6.895 MPa = 68.95 bar = 6,895 kPa = 47.88 atm

ksi = kilo-pound per square inch = 1,000 pounds-force per square inch

Also written as: KSI, 1000 PSI, 1 KPSI

Note: The Technical Atmosphere is part of the imperial/US customary system, primarily used in the US, UK, and Canada for everyday measurements. The Kilopound per Square Inch belongs to the imperial/US customary system.

Common Uses and Applications: technical atmospheres vs kilopounds per square inch

Explore the typical applications for both Technical Atmosphere (imperial/US) and Kilopound per Square Inch (imperial/US) to understand their common contexts.

Common Uses for technical atmospheres

Historical: European engineering (Germany, Austria, Switzerland) pre-1980s. Current: Some Asian countries (China, Russia, Japan) still use occasionally. Older Equipment: Pressure gauges, hydraulic systems from mid-1900s. Legacy Specs: Old engineering drawings, technical manuals.

When to Use kilopounds per square inch

Structural Steel: Yield strength, tensile strength specifications (AISC standards). Concrete: Compressive strength testing, design specs. Materials Testing: Tensile testing, compression testing. High-Pressure Systems: Hydraulics, pressure vessels, extreme pressures.

Additional Unit Information

About Technical Atmosphere (at)

What is the difference between "at" and "atm"?

Different units! (Common source of confusion)

at (technical atmosphere):

  • 1 at = 1 kgf/cmΒ² = 98,066.5 Pa
  • Engineering unit based on kilogram-force
  • Symbol: at
  • Historical European engineering

atm (standard atmosphere):

  • 1 atm = 101,325 Pa (exactly, by definition)
  • Based on sea-level atmospheric pressure
  • Symbol: atm
  • Scientific/meteorological standard

Relationship: 1 atm = 1.033 at (about 3% higher)

Why confusion?: Names sound similar, values close (both β‰ˆ atmospheric pressure)

Technical Atmosphere to Atmosphere converter β†’

How do I convert at to bar?

Formula: bar = at Γ— 0.980665

Quick approximation: 1 at β‰ˆ 1 bar (1.9% difference)

Exact conversions:

  • 1 at = 0.981 bar
  • 2 at = 1.961 bar
  • 5 at = 4.903 bar
  • 10 at = 9.807 bar
  • 100 at = 98.07 bar

Inverse: 1 bar = 1.0197 at

Why so close?: Bar defined (originally) to be close to atmospheric pressure, similar motivation as technical atmosphere

at to Bar converter β†’

How do I convert at to PSI?

Formula: PSI = at Γ— 14.2233

Examples:

  • 1 at = 14.22 PSI
  • 2 at = 28.45 PSI
  • 5 at = 71.12 PSI (typical air compressor)
  • 10 at = 142.23 PSI
  • 100 at = 1,422.33 PSI (high pressure)

Inverse: 1 PSI = 0.0703 at

Memory aid: 1 at β‰ˆ 14 PSI

at to PSI converter β†’

How do I convert at to kPa or MPa?

Formula: kPa = at Γ— 98.0665

Examples:

  • 1 at = 98.07 kPa β‰ˆ 0.1 MPa
  • 5 at = 490.3 kPa β‰ˆ 0.5 MPa
  • 10 at = 980.7 kPa β‰ˆ 1 MPa
  • 50 at = 4,903 kPa β‰ˆ 5 MPa
  • 100 at = 9,807 kPa β‰ˆ 10 MPa

Quick rule: Multiply by ~100 to get kPa, divide by ~10 to get MPa

at to kPa converter β†’ at to MPa converter β†’

Why is this unit not used anymore?

SI adoption (1970s-1980s): Most countries transitioned to SI units (Pa, kPa, MPa, bar)

Problems with technical atmosphere:

  • Not SI-compliant: Based on kilogram-force (gravitational unit)
  • Ambiguity: "kg" is mass, not force (kgf needed for clarity)
  • Gravity dependence: Assumes standard gravity (9.80665 m/sΒ²)
  • Confusion: Easy to confuse with standard atmosphere (atm)

Modern replacements:

  • Bar: 1 at β‰ˆ 1 bar (easy conversion)
  • kPa: 1 at β‰ˆ 100 kPa
  • MPa: For high pressures (1 at = 0.1 MPa)

Still seen in:

  • Older European equipment specifications
  • Chinese industrial standards (some applications)
  • Russian/former Soviet engineering documents
  • Japanese industrial equipment (occasionally)
  • Legacy pressure gauges and instruments

For new designs: Use bar, kPa, or MPa instead of at

Historical importance: Was convenient unit when bar not yet standardized, and provided easy mental approximation to atmospheric pressure.

About Kilopound per Square Inch (ksi)

How do I convert ksi to MPa?

Formula: MPa = ksi Γ— 6.895

Examples:

  • 36 ksi = 248 MPa (A36 steel)
  • 50 ksi = 345 MPa (A992 steel)
  • 60 ksi = 414 MPa (rebar)
  • 100 ksi = 689 MPa (high-strength)
  • 1 ksi = 6.895 MPa

ksi to MPa converter β†’

What does "36 ksi steel" mean?

36 ksi = yield strength of structural steel

A36 Steel (most common structural):

  • Yield strength: 36,000 PSI = 36 ksi = 248 MPa
  • Tensile strength: 58-80 ksi (ultimate strength before breaking)
  • Applications: Beams, columns, general construction

Yield strength: Stress at which permanent deformation begins Tensile strength: Maximum stress before failure

Common grades:

  • A36: 36 ksi (older standard, still common)
  • A572 Grade 50: 50 ksi (modern standard)
  • A992: 50 ksi yield (I-beams, wide flanges)

How do I convert ksi to PSI?

Formula: PSI = ksi Γ— 1,000

Examples:

  • 1 ksi = 1,000 PSI
  • 36 ksi = 36,000 PSI (A36 steel)
  • 50 ksi = 50,000 PSI (A992 steel)
  • 4 ksi = 4,000 PSI (concrete)
  • 0.1 ksi = 100 PSI

Why use ksi?: Simpler than writing "36,000 PSI"β€”say "36 ksi" instead

What is typical concrete strength in ksi?

Residential/Light commercial:

  • Sidewalks, patios: 3 ksi (3,000 PSI)
  • Garage floors, driveways: 3.5-4 ksi
  • Foundation slabs: 3-4 ksi

Commercial:

  • Commercial floors: 4-5 ksi
  • Parking structures: 4-5 ksi
  • Warehouse slabs: 5-6 ksi

Structural:

  • Columns, beams: 5-8 ksi
  • High-rise buildings: 8-14 ksi
  • Bridge elements: 4-6 ksi

Special:

  • Precast prestressed: 5-10 ksi
  • Ultra-high performance: 20-30 ksi

Note: Concrete strength measured at 28 days after pouring

Why does US use ksi instead of MPa?

Historical: US construction industry established with imperial units Standards: AISC, ACI, ASTM all specify ksi Training: US engineers educated with ksi Continuity: Existing specs, calculations, tables in ksi Conversion: 1 ksi β‰ˆ 7 MPa (approximate, easy mental math)

Rest of world: Uses MPa (SI standard)

  • 36 ksi = 248 MPa (A36 steel equivalent)
  • 50 ksi = 345 MPa (common grade)

Dual labeling: International projects often show both units

Conversion Table: Technical Atmosphere to Kilopound per Square Inch

Technical Atmosphere (at)Kilopound per Square Inch (ksi)
0.50.007
10.014
1.50.021
20.028
50.071
100.142
250.356
500.711
1001.422
2503.556
5007.112
1,00014.223

People Also Ask

How do I convert Technical Atmosphere to Kilopound per Square Inch?

To convert Technical Atmosphere to Kilopound per Square Inch, enter the value in Technical Atmosphere in the calculator above. The conversion will happen automatically. Use our free online converter for instant and accurate results. You can also visit our pressure converter page to convert between other units in this category.

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What is the conversion factor from Technical Atmosphere to Kilopound per Square Inch?

The conversion factor depends on the specific relationship between Technical Atmosphere and Kilopound per Square Inch. You can find the exact conversion formula and factor on this page. Our calculator handles all calculations automatically. See the conversion table above for common values.

Can I convert Kilopound per Square Inch back to Technical Atmosphere?

Yes! You can easily convert Kilopound per Square Inch back to Technical Atmosphere by using the swap button (β‡Œ) in the calculator above, or by visiting our Kilopound per Square Inch to Technical Atmosphere converter page. You can also explore other pressure conversions on our category page.

Learn more β†’

What are common uses for Technical Atmosphere and Kilopound per Square Inch?

Technical Atmosphere and Kilopound per Square Inch are both standard units used in pressure measurements. They are commonly used in various applications including engineering, construction, cooking, and scientific research. Browse our pressure converter for more conversion options.

For more pressure conversion questions, visit our FAQ page or explore our conversion guides.

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Verified Against Authority Standards

All conversion formulas have been verified against international standards and authoritative sources to ensure maximum accuracy and reliability.

NIST Reference on Constants, Units and Uncertainty

National Institute of Standards and Technology β€” Fundamental physical constants and unit conversions

BIPM SI Units

Bureau International des Poids et Mesures β€” International System of Units (SI) definitions and standards

ISO 80000

International Organization for Standardization β€” Quantities and units international standards series

Last verified: February 19, 2026