Impact Test Equipment

ED&D impact test equipment supports repeatable mechanical impact testing for enclosure, component, and product safety programs associated with IEC 60068-2-75, IEC 60601, IEC 60065, IEC 61032, UL 1703, and related test methods. This product family includes the F22.50 Impact Hammer, Series 5110 Spring-Operated Impact Hammers, Series ITB Impact Test Balls, and the BPH-639 1 lb. Ball-Peen Hammer for controlled impact-energy and impact-mass testing workflows.

ED&D Model F22.50 Spring Impact Hammer with adjustable energy settings for IEC 60601 and IEC 61010 mechanical durability testing.
IEC 60068-2-75 IEC 60601 IEC 60065 IEC 61032 UL 1703 UL 1989 UL 1418

Defined Impact Energy
Spring-operated hammers provide repeatable impact energy for standards-based mechanical impact testing.

Impact Balls for Drop and Pendulum Use
Hardened steel impact balls support test methods that call for specific diameter, weight, and hardness combinations.

Calibration Matters
Impact tools should be selected and maintained to match the exact method, energy, and calibration expectations of the governing standard.

Request an Impact Test Equipment Quote

Tell us the exact standard, required impact energy or impact mass, and whether your lab needs a spring hammer, impact ball, or general-purpose calibrated striking tool.

Impact Testing for Enclosures, Components, and Safety Verification

Impact testing is used to evaluate how an enclosure, part, or product responds to a defined mechanical strike. Depending on the governing method, the test may require a spring-operated impact hammer with defined energy, a hardened steel impact ball with defined size and mass, or another controlled striking tool used as part of a broader safety test program.

ED&Dā€™s impact test equipment family includes adjustable and single-energy impact hammers, impact balls for drop or pendulum use, and a calibrated ball-peen hammer option for labs that need general-purpose striking tools to support mechanical test procedures. Together, these products support test programs tied to IEC 60068-2-75, IEC 60601, IEC 60065, IEC 61032, UL 1703, UL 1989, and UL 1418.

Because impact testing is method-specific, the correct tool depends on the exact required impact energy, mass, striking face geometry, hardness, and calibration method called for by the governing standard or lab procedure.

Important standards note: impact testing is only meaningful when the tool, energy level, geometry, and calibration state match the exact method required by the governing standard.

How This Page Is Organized

  • Impact Hammers: adjustable and fixed-energy hammer systems for defined mechanical impact testing
  • Impact Test Balls: hardened balls for standards requiring drop, pendulum, or ball-impact methods
  • Ball-Peen Hammer: calibrated striking tool for procedures that require a hammer rather than a spring-operated impact device

Impact Hammers

F22.50 Impact Hammer

ED&D Model F22.50 Spring Impact Hammer with adjustable energy settings for IEC 60601 and IEC 61010 mechanical durability testing.

Adjustable impact hammer with selectable energy levels from 0.20 J to 1.0 J for controlled mechanical impact testing.

Best fit for labs that need one hammer covering multiple energy levels.

Series 5110 Spring-Operated Impact Hammers

Model 5110-2.0J single-energy spring-operated impact hammer for repeatable mechanical safety testing according to IEC standards.

Single-energy spring-operated impact hammers for repeatable standards-based testing.

Available from 0.20 J to 2.0 J with calibration certificate and carrying case.

Selection note: choose adjustable hammers for flexibility across multiple tests, or fixed-energy hammers when the method requires one specific impact value.

Impact Test Balls

Three stainless steel ITB series impact test balls with integrated eyelets for pendulum and drop testing applications.

The Series ITB Impact Test Balls are hardened steel ball-impact tools used in methods that call for a defined ball diameter, mass, and in some cases a specified hardness. They are used in drop, pendulum, and related ball-impact procedures where the standard defines the exact ball characteristics rather than a spring-operated hammer energy.

Certain ITB models include a removable eyelet so the ball can be used in either drop-style or pendulum-style arrangements depending on the lab setup and the governing procedure.

Use note: impact-ball selection should always be based on the exact required diameter, weight, hardness, and mounting method called for by the applicable standard or clause.

Series ITB Reference Table

Model Typical Standards Positioning Diameter Mass / Weight Notable Features
ITB-01 IEC 60950 50 mm 500 g Hardened steel with chrome finish; removable eyelet for drop or pendulum use
ITB-03 UL 1989, UL 1418, and others 2 inches 1.18 lb. Variant ball configuration for standards requiring inch-based size and weight conventions
ITB-04 IEC 60065, Clause 18.2.3 40 mm Per method Minimum Rockwell Hardness R65 for methods requiring a smaller hardened ball

Selection note: choose the impact ball by matching the exact required diameter, mass, hardness, and intended use method such as drop or pendulum testing.

BPH-639 1 lb. Ball-Peen Hammer

BPH-639 Ball Peen Hammer with a polished black head and ergonomic wooden handle for manual mechanical impact evaluations.

The BPH-639 is a 1 lb. / 16 oz. ball-peen hammer for test programs that require a hammer-based striking tool rather than a spring-operated impact hammer or hardened impact ball.

Product Details

  • 1 lb. / 16 oz. ball-peen hammer
  • Useful where the test method specifies a hammer-based impact tool
  • Can support calibration-conscious lab environments where traceability matters

Calibration note: for ISO/IEC 17025 environments, the use of an improperly calibrated tool can undermine the validity of the test setup. Match the hammer, calibration state, and test method carefully.

Which Impact Test Tool Is Right for Your Lab?

Equipment Type Primary Use Typical Models Best Fit
Adjustable Impact Hammer Multi-energy mechanical impact testing F22.50 Labs that need one hammer covering multiple energy levels
Single-Energy Impact Hammers Defined spring-operated impact testing Series 5110 Standards-based testing where one fixed energy level is required
Impact Test Balls Ball impact, drop, or pendulum methods ITB-01, ITB-03, ITB-04 Methods that specify exact ball size, mass, and hardness
Ball-Peen Hammer Hammer-based striking methods BPH-639 Procedures that call for a hammer rather than a spring impact device

Selection guidance: start with the exact standard and required impact method, then match the tool by energy, mass, geometry, and calibration expectations.

Frequently Asked Questions

What is the difference between an impact hammer and an impact test ball?

An impact hammer delivers a defined spring-operated strike at a specified energy level, while an impact test ball is used in methods that specify a ball of defined diameter, mass, and sometimes hardness for drop, pendulum, or ball-impact testing.

When should a lab choose the adjustable F22.50 instead of a Series 5110 hammer?

Choose the F22.50 when your lab needs multiple impact-energy levels in one tool. Choose a Series 5110 model when the method calls for one specific fixed energy and you want a dedicated hammer for that value.

Why do impact test balls have different diameters and hardness levels?

Because different standards call for different impact masses, dimensions, and hardness requirements. The correct ball must match the exact clause used in the test method.

How important is calibration for impact testing?

Calibration is critical. Impact energy, striking geometry, and traceability all affect whether the applied impact matches the standard and whether the results are defensible in a controlled lab environment.

Can one impact tool cover every standard?

No. Different standards may call for a specific hammer energy, ball size, hardness level, or test arrangement, so the correct tool depends on the exact method.

Why would a lab still use a calibrated ball-peen hammer?

Some procedures call for a hammer-based striking tool rather than a spring-operated hammer. In those cases, a calibrated hammer helps maintain better control and traceability within the test setup.

Talk to ED&D About Impact Testing

Send the exact standard and required impact method, and we can help narrow the right hammer, impact ball, or striking tool.

Typical Impact Test Applications

ED&D impact test equipment is used in electrical safety laboratories, product certification programs, enclosure evaluation workflows, component durability testing, and engineering verification environments where controlled mechanical impact must be applied repeatably.

Depending on the equipment and method, these workflows may relate to IEC 60068-2-75, IEC 60601, IEC 60065, IEC 61032, UL 1703, UL 1989, and UL 1418.

  • Mechanical impact testing of enclosures
  • Defined-energy spring hammer evaluations
  • Ball-impact methods using controlled mass and diameter
  • Medical and appliance-related impact verification
  • Information-technology and audio/video legacy methods
  • Engineering lab verification of product robustness
  • Calibration-conscious ISO/IEC 17025 lab workflows
  • Drop and pendulum arrangements using impact balls
  • Hammer-based procedures requiring calibrated striking tools

Method note: impact testing is only valid when the impact energy, mass, geometry, hardness, and calibration state all match the exact method required by the governing standard.