Security Market | Systems Integration
Wheatsheaf, Pennsylvania, PA 19403
Standards
Our Standards
Protection systems are designed and tested to meet defined performance standards for blast, ballistic, and forced entry resistance. These standards establish measurable criteria to ensure systems perform reliably under specific threat conditions.
Through engineering validation and real-world testing, solutions are developed to withstand impact, pressure, and intrusion scenarios. This ensures consistent performance, safety, and durability across applications.
By aligning with recognized standards, systems provide dependable protection while supporting effective implementation in high-risk environments and critical infrastructure projects.
Ballistic
Ballistic protection systems are engineered to resist projectile impact using multi-layer materials and reinforced construction. These systems absorb and dissipate energy, preventing penetration and reducing fragmentation that could cause injury.
Applied across doors, windows, and glazing systems, they provide reliable protection in secure environments. Designed to meet defined threat levels, these systems ensure performance while maintaining visibility and usability. Their integration into buildings and infrastructure allows for effective protection without compromising operational functionality or design requirements.
Forced Entry
Forced entry protection systems are developed to prevent unauthorized access through reinforced construction and high-resistance materials. These systems are engineered to withstand physical attacks such as impact, cutting, and forced intrusion attempts.
Applied across access points, including doors, windows, and perimeter systems, they provide reliable protection for sensitive areas. Designed for durability and long-term performance, these solutions maintain functionality while ensuring security, making them suitable for high-risk and controlled environments.
Blast Mitigation
Blast mitigation systems are designed to reduce the impact of explosive forces on structures and occupants. By dispersing energy and preventing structural failure, these systems minimize damage and reduce the risk of injury caused by debris.
Applications include walls, glazing systems, and structural reinforcement elements. These systems are engineered to enhance resilience and maintain building integrity under extreme conditions, ensuring safety in environments exposed to potential blast threats.