Hammers

Image	Part Number	Description / PDF	Quantity	Rfq
	69-011 Xcelite	HMR SFT FACE W/O TIP 1-1/2D 1L	0
	11530 Xcelite	HAMMER,HICKORY,SCALING,16 OZ	0
	69-033 Xcelite	HMR SFT FACE W/O TIP 3D 6LB	0
	11527 Xcelite	HAMMER,HICKORY,40OZ,DOUBLE FACED	0
	11436 Xcelite	HAMMER,HICKORY,PREM,CRV,16 OZ	0
	SS20CN Xcelite	HAMMER SS 200Z CRV MAGNETIC NAIL	0
	69-552 Xcelite	HMR DEAD BLOW SLEDGE 10.5LB	0
	69-649 Xcelite	HMR SLDG 6LB WD HDL	0
	69-647 Xcelite	HMR SLDG 4LB WD HDL	0
	69-715 Xcelite	HMR MAXX LCK BALL PEIN THR RDY 3	0
	69-655 Xcelite	HMR SLDG 12LB WD HDL	0
	69-623 Xcelite	HMR CRSS PN 2-1/2LB WD HDL	0

Hammers

1. Overview

Hammers are fundamental hand or power tools designed to deliver impact force for driving, shaping, or breaking materials. Modern hammers integrate advanced materials and ergonomic designs to enhance precision, safety, and efficiency across industries such as construction, manufacturing, and maintenance.

2. Major Types and Functional Classification

Type	Functional Features	Application Examples
Claw Hammer	Curved claw for nail removal, balanced striking face	Carpentry, demolition
Ball Peen Hammer	Round peen for metal shaping, hardened striking surface	Metalworking, riveting
Rubber Mallet	Non-marring elastic head, vibration absorption	Furniture assembly, automotive
Electric Hammer	Motor-driven impact mechanism, adjustable force	Concrete drilling, heavy-duty construction
Impact Hammer	High-torque rotational force, socket compatibility	Mechanical repair, bolt tightening

3. Structure and Components

Typical hammers consist of: - Head: Forged steel or composite materials with hardened striking surfaces - Handle: Fiberglass, wood, or polymer with anti-vibration coatings - Connection System: Wedge-lock or integral molding to prevent head detachment - Ergonomic Elements: Textured grips, shock-absorbing cores

4. Key Technical Specifications

Parameter	Description	Importance
Head Weight	0.2-10 kg range	Determines impact force and user fatigue
Material Hardness	50-60 HRC for steel heads	Affects durability and spark resistance
Handle Length	200-500 mm	Influences torque and control precision
Impact Energy	1-50 J (power tools)	Dictates material penetration capability
Vibration Damping	0-20 m/s	Reduces repetitive strain injuries

5. Application Fields

Construction: Concrete breaking, framing
Automotive: Panel shaping, component assembly
Manufacturing: Sheet metal forming, assembly lines
Energy: Pipeline maintenance, turbine repair
Case Study: Hilti TE 76 impact hammer used for high-precision anchor installation in bridge construction

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Innovation
Stanley Black & Decker	FatMax Xtreme Claw Hammer	Shock control handle system
Hilti Corporation	TE-MH 22 MultiHammer	EC motor with smart force control
Bosch Power Tools	GBH 11-260 DR Professional	Vibration-reduction electronics
Estwing Manufacturing	M87DW Dual Warranted Hammer	Full-polished steel monoblock design

7. Selection Recommendations

Key considerations:

Material compatibility (e.g., brass hammers for explosive environments)
Force requirements vs. ergonomics
Operating environment (temperature, moisture)
Regulatory compliance (ISO 17038 for hand tools)
Maintenance accessibility (replaceable heads/handles)

8. Industry Trends

Emerging developments include:

Integration of brushless motors for 40% energy savings
Smart sensors for impact force monitoring
Recyclable composite materials reducing weight by 30%
Modular systems combining 5+ hammer functions in one tool
AI-powered usage analytics for predictive maintenance