This study investigates the applicability and feasibility of introducing lightweight safety helmets in industrial workplaces, with the aim of identifying subsequent research needs. Conventional industrial helmets often present limitations such as excessive weight, discomfort during prolonged use, and reduced compliance among workers—factors that may diminish protective performance and hinder the establishment of a strong safety culture. Recent advances in materials engineering and ergonomic design have renewed interest in lightweight safety helmets as a potential alternative capable of enhancing user comfort and improving wear-ability. To evaluate their practical adoption, this study examines the essential safety performance requirements of lightweight helmets, including impact absorption, durability, and structural stability, as well as their suitability across diverse work environments. Additionally, factors such as user acceptance, cost-effectiveness, and industry-specific operational demands are analyzed to determine the overall feasibility of implementation. Based on these multidimensional assessments, the study identifies key gaps and proposes future research directions necessary for the development, standardization, and field validation of lightweight helmets. The findings aim to provide foundational evidence to support the broader adoption of lightweight protective equipment and contribute to the advancement of worker safety in evolving industrial environments.

Abstract
1. 서 론
2. 문헌고찰
    2.1 선행연구
    2.2 안전인증 규격
    2.3 성능기준 및 시험방법
3. 일반 현황
    3.1 경작업 및 경량 안전모 용어 정의
    3.2 경량 안전모 개요
    3.3 산업재해통계
4. 실태조사
    4.1 사용 실태
    4.2 개발 현황 및 문제점
    4.3 이해관계자 의견 수렴
5. 경량 안전모 기술개발 방향성
6. 결 론
7. References
저자 소개

• 변정환(안전보건공단 산업안전보건연구원) | Junghwan Byeon (Occupational Safety and Health Research Institute, KOSHA)
• 박재석(안전보건공단 산업안전보건연구원) | Park Jae Suk (Occupational Safety and Health Research Institute, KOSHA) Corresponding author