Deutsch: Panzerbrechende Munition / Español: AP / Français: Munition antiblindage / Italiano: Proiettile perforante

Armor-piercing in the industrial context refers to the design, development, and production of materials, equipment, and projectiles specifically engineered to penetrate or defeat armor. This term is most commonly associated with military applications but also has implications in other industries where strong, resilient materials are required. Armor-piercing technology encompasses a wide range of products, from bullets and shells in the defense sector to tools and machinery components in industrial applications.

Industrial Applications

  1. Military Manufacturing: Production of armor-piercing ammunition and weaponry for defense purposes.
  2. Law Enforcement: Development of specialized equipment for tactical operations.
  3. Material Science Research: Innovations in creating stronger, more penetrative materials.
  4. Construction and Mining Industries: Tools and machinery designed to break through hard surfaces or materials.
  5. Automotive and Aerospace Industries: Development of materials resistant to high-impact forces.

Notable Examples

  1. Armor-Piercing Rounds: Ammunition designed to penetrate military armor, used in various firearms.
  2. Tungsten Carbide Drills: Widely used in construction and mining for their ability to penetrate hard materials.
  3. Ballistic Plates: In body armor, designed to resist armor-piercing rounds.
  4. Industrial Cutters and Drills: Engineered to perform in extreme conditions, cutting through tough materials.

Risks and Challenges

  1. Safety and Legal Compliance: Strict regulations govern the manufacture and sale of armor-piercing equipment.
  2. Technological Advancements: Keeping pace with rapid advancements in material sciences and engineering.
  3. Environmental Impact: Production processes often involve materials and methods that can be harmful to the environment.
  4. Ethical Concerns: Particularly in military applications, the development and use of such technology raise ethical questions.

Usage in Various Fields

  • Defense Industry: For producing military vehicles, body armor, and ammunition.
  • Law Enforcement: In developing tactical gear and equipment.
  • Manufacturing and Engineering: Creation of tools capable of piercing or cutting through hard materials.

Historical and Legal Context

The concept of armor-piercing technology dates back to ancient warfare but has evolved significantly with advancements in materials science and engineering. Modern regulations, especially in the defense and law enforcement sectors, govern the development, manufacture, and distribution of armor-piercing equipment to ensure they are used responsibly and ethically.

Examples of Sentences

  • "The new armor-piercing bullets are designed to penetrate advanced body armor."
  • "In mining, armor-piercing drills make it possible to reach mineral deposits in extremely hard rock."
  • "Regulations around the manufacture of armor-piercing ammunition have become more stringent."
  • "Advances in armor-piercing technology are crucial for modern military applications."

Similar Concepts and Synonyms

  • Ballistic Penetration
  • Anti-Armor Capabilities
  • Hard Material Penetration


In the industrial context, "armor-piercing" refers to technologies and materials designed to penetrate or defeat armor. This term is prevalent in military and defense industries but also applies to other sectors like construction, mining, and manufacturing, where penetrating hard materials is necessary. The development of armor-piercing technology is a complex field, balancing innovation with safety, legal, and ethical considerations. As materials science progresses, the capabilities and applications of armor-piercing technology continue to expand, playing a crucial role in various industrial applications.


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