Title: Test Protocol for Comparative Evaluation of Protective Gloves for Law Enforcement and Corrections Applications. Series: Law Enforcement and Corrections Standards and Testing Progam Author: NIJ Published: National Institute of Justice, June 1999 Subject: Police equipment 16 pages 27,000 bytes ------------------------------- This is an ASCII plain-text file. To view this document in its graphic format, download the Adobe Acrobat graphic file available from this Web site or order a print copy from NLECTC at 800-248-2742. ------------------------------- U.S. Department of Justice Office of Justice Programs National Institute of Justice National Institute of Justice Law Enforcement and Corrections Standards and Testing Program Test Protocol for Comparative Evaluation of Protective Gloves for Law Enforcement and Corrections Applications NIJ Test Protocol 99-114 ------------------------------- ABOUT THE LAW ENFORCEMENT AND CORRECTIONS STANDARDS AND TESTING PROGRAM The Law Enforcement and Corrections Standards and Testing Program is sponsored by the Office of Science and Technology of the National Institute of Justice (NIJ), U.S. Department of Justice. The program responds to the mandate of the Justice System Improvement Act of 1979, which created NIJ and directed it to encourage research and development to improve the criminal justice system and to disseminate the results to Federal, State, and local agencies. The Law Enforcement and Corrections Standards and Testing Program is an applied research effort that determines the technological needs of justice system agencies, sets minimum performance standards for specific devices, tests commercially available equipment against those standards, and disseminates the standards and the test results to criminal justice agencies nationally and internationally. The program operates through: The Law Enforcement and Corrections Technology Advisory Council (LECTAC) consisting of nationally recognized criminal justice practitioners from Federal, State, and local agencies, which assesses technological needs and sets priorities for research programs and items to be evaluated and tested. The Office of Law Enforcement Standards (OLES) at the National Institute of Standards and Technology, which develops voluntary national performance standards for compliance testing to ensure that individual items of equipment are suitable for use by criminal justice agencies. The standards are based upon laboratory testing and evaluation of representative samples of each item of equipment to determine the key attributes, develop test methods, and establish minimum performance requirements for each essential attribute. In addition to the highly technical standards, OLES also produces user guides that explain in nontechnical terms the capabilities of available equipment. The National Law Enforcement and Corrections Technology Center (NLECTC), operated by a grantee, which supervises a national compliance testing program conducted by independent laboratories. The standards developed by OLES serve as performance benchmarks against which commercial equipment is measured. The facilities, personnel, and testing capabilities of the independent laboratories are evaluated by OLES prior to testing each item of equipment, and OLES helps the NLECTC staff review and analyze data. Test results are published in Equipment Performance Reports designed to help justice system procurement officials make informed purchasing decisions. Publications are available at no charge from the National Law Enforcement and Corrections Technology Center. Some documents are also available online through the Internet/World Wide Web. To request a document or additional information, call 800-248-2742 or 301-519-5060, or write: National Law Enforcement and Corrections Technology Center P.O. Box 1160 Rockville, MD 20849-1160 E-Mail: asknlectc@nlectc.org World Wide Web address: http:www.nlectc.org ------------------------------- The National Institute of Justice is a component of the Office of Justice Programs, which also includes the Bureau of Justice Assistance, Bureau of Justice Statistics, Office of Juvenile Justice and Delinquency Prevention, and the Office for Victims of Crime. ------------------------------- U.S. Department of Justice Office of Justice Programs National Institute of Justice Test Protocol for Comparative Evaluation of Protective Gloves for Law Enforcement and Corrections Applications NIJ Test Protocol 99-114 Alim A. Fatah National Institute of Standards and Technology Office of Law Enforcement Standards Gaithersburg, MD 20899-8102 Prepared for: National Institute of Justice Office of Science and Technology U.S. Department of Justice Washington, DC 20531 June 1999 ------------------------------- National Institute of Justice Jeremy Travis Director The technical effort to develop this test protocol was conducted under Interagency Agreement 94-IJ-R-004, Project No. 97-009 IA/CTT. This test protocol was formulated by the Office of Law Enforcement Standards (OLES) of the National Institute of Standards and Technology (NIST) under the direction of Alim A. Fatah, Program Manager, Chemical Systems and Materials, and Kathleen M. Higgins, Director of OLES. The preparation of this test protocol was sponsored by the National Institute of Justice, David G. Boyd, Director, Office of Science and Technology. This test protocol has been reviewed and approved by the Weapons and Protective Systems Subcommittee and the Executive Committee of the Law Enforcement and Corrections Technology Advisory Council. ------------------------------- FOREWORD This document, NIJ Test Protocol 99-114: Test Protocol for Comparative Evaluation of Protective Gloves for Law Enforcement and Corrections Applications, is a comparative evaluation protocol developed by the Office of Law Enforcement Standards of the National Institute of Standards and Technology. It is produced as part of the Law Enforcement and Corrections Standards and Testing Program of the National Institute of Justice. A brief description of the program appears on the inside front cover. This test protocol is a technical document that evaluates performance and other requirements that equipment should meet to satisfy the needs of criminal justice agencies for high-quality service. Purchasers can use the test methods described in this test protocol to evaluate whether a particular piece of equipment meets the agency's essential requirements, or they may have the tests conducted on their behalf by a qualified testing laboratory. NIJ, through its National Law Enforcement and Corrections Technology Center (NLECTC)-National, conducts periodic comparative evaluations of products in accordance with the test methods outlined in this protocol and publishes the data. These reports can be utilized by agencies to assist in selecting products that best meet their requirements. For copies of the most recent evaluations conducted, contact NLECTC at 800-248-2742 or 301-519-5060. Because this NIJ test protocol is designed as a procurement aid, it provides precise and detailed test methods. For those who seek general guidance concerning the selection and application of law enforcement equipment, user guides have also been published. The guides explain in nontechnical language how to select equipment capable of the performance required by an agency. NIJ test protocols are subjected to continuing review. Technical comments and recommended revisions are welcome. Please send suggestions to the Director, Office of Science and Technology, National Institute of Justice, U.S. Department of Justice, 810 7th St., NW, Washington, DC 20531. Before citing this or any other NIJ test protocol in a contract document, users should verify that the most recent edition of the test protocol is used. Write to: Director, Office of Law Enforcement Standards, National Institute of Standards and Technology, 100 Bureau Drive, Stop 8102, Gaithersburg, MD 20899-8102. David G. Boyd, Director Office of Science and Technology National Institute of Justice NIJ TEST PROTOCOL FOR COMPARATIVE EVALUATION OF PROTECTIVE GLOVES FOR LAW ENFORCEMENT AND CORRECTIONS APPLICATIONS CONTENTS Foreword 1. Purpose and Scope 2. Applicable Documents 3. Requirements 3.1 Description 3.2 Rating Types 4. Test Methods 4.1 Pathogenic Resistance 4.2 Dexterity 4.3 Cut Resistance 4.4 Tear Resistance 4.5 Puncture Resistance 5. Quality Assurance 5.1 Responsibility for Inspection 5.2 Manufacturer Quality Assurance Plan 5.3 Examination Procedure 5.4 Test Procedures 5.5 Reporting the Test Results 6. Workmanship, Labeling, and Acceptance Requirements for Protective Gloves 6.1 Acceptance Criteria 6.2 Test Sequence 6.3 Workmanship 6.4 Labeling 7.Certification of Testing in Accordance with NIJ Test Protocols Commonly Used Symbols and Abbreviations A--ampere ac--alternating current AM--amplitude modulation cd--candela cm--centimeter CP--chemically pure c/s--cycle per second* d--day dB--decibel dc--direct current degree C--degree Celsius degree F--degree Fahrenheit* diam--diameter emf--electromotive force eq--equation F--farad fc--footcandle* fig.--figure FM--frequency modulation ft--foot* ft/s--foot per second* g--acceleration g--gram gr--grain* H--henry h--hr, hour hf--high frequency Hz--hertz (c/s) i.d.--inside diameter in--inch* ir--infrared J--joule L--lambert L--liter lb--pound* lbf--pound-force* lbf-in--pound-force inch* lm--lumen ln--logarithm (natural) log--logarithm (common) M(italic)--molar m--meter min--minute mm--millimeter mph--mile per hour* m/s--meter per second N--newton N-m--newton meter nm--nanometer No.--number o.d.--outside diameter upper-case phi ohm p.--page Pa--pascal pe--probable error pp.--pages ppm--part per million qt--quart* rad--radian rf--radio frequency rh--relative humidity s--second SD--standard deviation sec.--section SWR--standing wave ratio uhf--ultrahigh frequency uv--ultraviolet V--volt vhf--very high frequency W--watt lower-case lambda wavelength wt--weight area = unit(squared) (e.g., m[squared], cm[squared], etc.); volume = unit(cubed) (e.g., m[cubed], cm[cubed], etc.) PREFIXES d--deci (10[-1]) c--centi (10[-2]) m--milli (10[-3]) u--micro (10[-6]) n--nano (10[-9]) p--pico (10[-12]) da--deka (10) h--hecto (10[2]) k--kilo (10[3]) M--mega (10[6]) G--giga (10[9]) T--tera (10[12]) COMMON CONVERSIONS (See ASTM E380) ft/s x 0.3048000 = m/s ft x 0.3048 = m ft x lbf x 1.355818 = J gr x 0.06479891 = g in x 2.54 = cm kWh x 3600000 = J lb x 0.4535924 = kg lbf x 4.448222 = N lbf/ft x 14.59390 = N/m lbf in x 0.1129848 = N-m lbf/in(squared) x 6894.757 = Pa mph x 1.609344 = km/h qt x 0.9463529 = L Temperature: (T degrees F - 32) x 5/9 = T degrees C Temperature: (T degrees C x 9/5) + 32 = T degrees F *These units are not in the metric system of units, but are included for the convenience of the user. NIJ TEST PROTOCOL FOR COMPARATIVE EVALUATION OF PROTECTIVE GLOVES FOR LAW ENFORCEMENT AND CORRECTIONS APPLICATIONS 1. PURPOSE AND SCOPE The purpose of this test protocol is to compare the performance of protective gloves for use by law enforcement, corrections, and military personnel. The scope of this test protocol is limited to the types of gloves that meet the rating levels described in Section 3.2 of this test protocol. The applicable documents, which are in Section 2.0, describe the test methods for conducting the comparative evaluation of the protective gloves and are incorporated as part of this test protocol. 2. APPLICABLE DOCUMENTS 2.1 Government Documents The most current versions of the following referenced documents should be used. Federal Code of Federal Regulations (CFR)[1] a. 29 CFR 1910 Part 1030--"Occupational Exposure to Bloodborne Pathogens: Final Rule," Federal Register, Vol. 56, No. 235, Dec. 6, 1991, pp. 64175-64182 (Occupational Safety and Health Administration). b. 16 CFR Part 1500.3--Definitions of Toxic and Hazardous Materials. c. 16 CFR 423, Part 423--Care Labeling of Textile Wearing Apparel and Certain Piece Goods, as amended effective January 2, 1984; Federal Trade Commission Regulation Rule. 2.2 Non-Government Documents The most current versions of the following referenced standards should be used. 2.2.1 American National Standards Institute (ANSI)/American Society for Quality Control (ASQC)[2] ANSI/ASQC Z1.4--Sampling Procedures and Tables for Inspection by Attributes. 2.2.2 National Fire Protection Association (NFPA)[3] NFPA 1999--Standard on Protective Clothing for Emergency Medical Operations. 2.2.3 American Society for Testing and Materials (ASTM)[4] ASTM D 5151--Standard Test Method for Detection of Holes in Medical Gloves. ASTM F 1671--Standard Test Method for Resistance of Materials Used in Protective Clothing to Penetration by Blood-Borne Pathogens Using Phi-X174 Bacteriophage Penetration as a Test System. ASTM F 1342--Standard Test Method for Protective Clothing Material Resistance to Puncture. ASTM F 1790--Standard Test Method for Measuring Cut Resistance of Materials Used in Protective Clothing. ASTM D 5712--Standard Test Method for Analysis of Protein in Natural Rubber and its Products. ASTM D 2582--Standard Test Method for Puncture-Propagation Tear Resistance of Plastic Film and Thin Sheeting. 2.2.4 British/European Standards[5] BS EN 420:1994--General Requirements for Gloves. BS EN 388:1994--Protective Gloves Against Mechanical Risks. 3. REQUIREMENTS 3.1 Description The protective gloves covered by this test protocol are required to meet the performance criteria and rating types defined for each criterion in accordance with Table 1 on page 3. 3.2 Rating Types There are three major rating types designated as Types A, B, and C. If technically and commercially feasible, a glove that combines all the performance requirements of types A, B, and C, is rated the highest. 3.2.1 Type A This glove shall be specifically designed for protection against biological hazards. It shall provide general protection against health hazards in dealing with field interrogation, apprehension, transport, and incarceration of suspects and/or prisoners as well as crime scene investigation and evidence gathering. 3.2.2 Type B This glove is specifically designed to be cut resistant. It shall provide general protection against health hazards in dealing with field interrogation, apprehension, and incarceration of suspects/prisoners as well as crime scene investigation and evidence gathering in hostile environments where sharp objects such as knives and razor blades may pose a threat. 3.2.3 Type C This glove is specifically designed to be puncture resistant. It shall provide general protection against health hazards in dealing with field interrogation, apprehension, and incarceration of suspects/prisoners as well as crime scene investigation and evidence gathering in hostile environments where pointed and needle shaped objects may pose a threat. These gloves are intended for use while frisking or patting down suspects/ prisoners. 4. TEST METHODS The performance criteria that the protective gloves in this test protocol are evaluated against are defined as follows: 4.1 Pathogenic Resistance Pathogenic resistance gloves shall provide protection against common blood-borne infectious diseases. The gloves meeting this criterion shall provide protection against microbiological pathogens that are transmitted through physical contact or contact with bodily fluids, such as blood, saliva, semen, etc. The gloves shall form a barrier to both the pathogen and/or the carrier fluid when tested in accordance with NFPA 1999, Sections 6-9 and 6-10, and the ASTM Standards cited therein. The test method measures the resistance of a protective material to penetration by blood-borne pathogen and for leakage, using a surrogate microbe under conditions of continuous liquid contact. Protective clothing material pass/fail determination is based on the detection of viral penetration and/or glove leakage. 4.2 Dexterity The gloves meeting this performance criterion shall meet the dexterity requirements when tested in accordance with British European Standard BS EN 420:1994, Section 5.2. In this test, a subject wearing the test glove is instructed to pick a series of pins of similar length but differing diameters. The dexterity is rated according to the smallest pin diameter that the subject wearing the glove can pick up. 4.3 Cut Resistance The glove meeting this performance criterion shall provide protection against slashes and/or cuts by sharp objects, such as blades and knives when tested in accordance with ASTM F 1790. This test method is used to measure the cut resistance of a material when mounted on a mandrel and subjected to a cutting edge under a specified load. 4.4 Tear Resistance The glove meeting this performance criterion shall provide the tear resistance when tested in accordance with British European Standard BS EN 388:1994, Section 6.3. In this method a tensile tester is used to measure the force necessary to tear a test specimen which is previously cut in a defined manner. For gloves that are entirely made of elastomeric materials such as plastic film, latex, etc., or have a liner made of such materials, the recommended test for tear resistance of the elastomeric material is ASTM D 2582. This test involves the determination of the dynamic tear resistance of plastic film and thin sheeting subjected to end-use snagging type hazards. 4.5 Puncture Resistance The glove meeting this performance criterion shall be resistant to penetration by needles and other pointed objects when tested in accordance with ASTM F 1342. This test method determines the puncture resistance of a protective clothing specimen by measuring the force required to cause a sharp-edged puncture probe to penetrate through the specimen. 5. QUALITY ASSURANCE PROVISIONS 5.1 Responsibility for Inspection The manufacturer shall be responsible for the performance of all inspection requirements as specified herein. Inspections and Quality Assurance procedures shall comply with ANSI/ASQC Z1.4, Sampling Procedures and Tables for Inspection by Attributes and OSHA Standard 29 CFR 1910.1030, Occupational Exposure to Blood-borne Pathogens: Final Rule, Federal Register, Vol. 56, No 235, Dec. 6, 1991, pp. 64175-64182. Except as otherwise specified, the manufacturer may use his/her own or any other facilities suitable for the performance of the inspection requirements specified herein. 5.2 Manufacturer Quality Assurance Plan The manufacturer shall develop and institute a quality assurance plan in accordance with the standards listed in Section 4.l. This quality assurance plan shall ensure that the product delivered meets the requirements specified herein. Manufacturers should include a copy of this plan as part of any model shipped to the purchaser. 5.3 Examination Procedure Lot numbers and results from the examination shall be recorded on the inspection sheets for each box of gloves. The sample and/or its components shall be examined for defects detailed in Section 6.3. 5.4 Test Procedures Tests shall be performed in accordance with the following methods. Reference to specific instruments is for information only; use of a company and/or product name in this document does not imply approval or recommendation of the product in preference to others that may also be suitable. Test specimens for the cut (Sec. 4.3), tear (Sec. 4.4) and puncture (Sec. 4.5) tests shall be cut from the finished glove in accordance with the dimensions specified for each test method and from glove location(s) specified in Figure 4, page 8 of BS EN Standard 388. Fourteen (14) pairs of gloves are the minimum numbers of samples needed for each model submitted for testing. Twelve (12) pairs will be used for testing and two (2) pairs will be retained for archival purposes as indicated in Table 2 on page 7. 5.4.1 Pathogenic Resistance Tests for pathogenic resistance shall be as specified in Section 4.1. 5.4.2 Dexterity The dexterity requirements of the gloves in this test protocol shall be tested as specified in Section 4.2 5.4.3 Cut Resistance Tests for the cut resistance of the gloves shall be performed as specified in Section 4.3. 5.4.4 Tear Resistance Tests for the tear resistance of the gloves shall be performed as specified in Section 4.4. 5.4.5 Puncture Resistance Tests for the puncture resistance of the gloves shall be performed as specified in Section 4.5. 5.5 Reporting the Test Results The laboratory results shall be summarized in a table format listing each glove model tested and how it performed against each of the performance criteria listed in Sections 4.1 to 4.5 of this test protocol. Statistical significance of the reported results as well as precision and accuracy of the test measurement shall also be reported, wherever it is deemed applicable. 6. WORKMANSHIP, LABELING, AND ACCEPTANCE REQUIREMENTS FOR PROTECTIVE GLOVES 6.1 Acceptance Criteria A protective glove model satisfies the requirements of this test protocol if all sample items meet the workmanship (see Sec. 6.3) and labeling (see Sec. 6.4) requirements when tested in accordance with the performance requirements of this test protocol. Each manufacturer must submit a minimum of fourteen (14) pairs for each model for performance of the tests required for this protocol. Any sample found not in compliance with the workmanship and labeling requirements will be returned to the manufacturer, at the manufacturer's expense, without further testing. 6.2 Test Sequence Tests shall be conducted in the order presented in Sections 4.1 through 4.5 of this test protocol. In the event that one of the samples fails to meet any requirement prior to the completion of testing, the laboratory shall continue with the test sequence, if possible, to the full completion of the performance requirements. 6.3 Workmanship Each glove sample submitted shall be free from wrinkles, blisters, cracks, or fabric tears; incomplete, inconsistent, or unsecured stitching; sharp or rough edges or corners; and any other evidences of inferior workmanship. The gloves shall not tear nor shall the stitching unravel during inspection or while performing the tests specified in Sections 4.1 to 4.5. All samples of a given model must be identical in appearance, materials of construction, and manner of construction. 6.4 Labeling Each set of protective gloves shall be clearly and durably marked (labeled) in a readable type size, in the English (U.S.) language, in accordance with the requirements set forth below. The label(s) must be securely attached to each glove. For nonfabric (latex) gloves providing basic pathogen protection, the manufacturer shall place the information required by this section on the box or as an insert to accompany the gloves in their intended packaging. 1. Name, logo, or other identification of the manufacturer. 2. The rated type of protection, according to Section 4.2 of this protocol and referenced to the current edition of this test protocol. 3. Size (if custom fitted, a provision for the name of the individual for whom it is made). 4. Lot number (a lot number is a control number assigned by the manufacturer to the lot of material used to construct the gloves, and should be used for traceability and quality control purposes). 5. Line to write "Date of Issue." 6. A model designation that uniquely identifies the glove for purchasing purposes. For the purposes of this test protocol, a "model" is defined as a manufacturer designation (name, number, or other description) that serves to uniquely identify a specific protective glove configuration based upon the details of the protective glove construction. Separate model designations must be assigned to protective gloves which vary in materials of construction (to include weave, denier, and waterproofing), manner of construction (to include stitch patterns or other methods of assembling the materials), and opening/closure configurations (i.e., hook and pile, zipper, elastic). 7. Care instructions for the gloves in accordance with 16 CFR 423, Part 423 Care Labeling of Textile Wearing Apparel and Certain Piece Goods, as amended effective January 2, 1984; Federal Trade Commission Regulation Rule [Not required for disposable or single-use gloves]. 8. A statement indicating that each glove model submitted for testing has been tested for protein content in accordance with NFPA 1999, Section 6-15 and ASTM Test Method cited therein. This test method determines the protein content of the glove material(s) and reports the average protein content level in micrograms per gram of glove material(s). 7. CERTIFICATION OF TESTING IN ACCORDANCE WITH NIJ TEST PROTOCOLS Manufacturers are prohibited from placing any statement on the model of protective glove (on the glove itself, the labeling, or accompanying advertisement or documentation) that in any way states, infers, or otherwise suggests that the model has been tested in accordance with the NIJ TEST PROTOCOL FOR PROTECTIVE GLOVES, until such time as the model has successfully completed testing at an NIJ-approved testing facility for the purposes of this test protocol, and a letter has been issued to the manufacturer by the National Law Enforcement and Corrections Technology Center (NLECTC). At that time, the manufacturer may place the following statement on the required labeling as specified in Section 6.4: "The manufacturer certifies that this model of protective glove has been tested in accordance with NIJ Test Protocol 99-114, dated June 1999." Manufacturers, once authorized to use this statement, are prohibited from modifying this statement in any fashion. Footnotes: [1] The CFR and Federal Register are for sale on a subscription basis by the Superintendent of Documents, U.S. Government Printing Office (GPO), Washington, DC 20402. Reprints of certain regulations may be obtained from the Federal Agency responsible for their issuance. [2] Copies may be obtained from the American National Standards Institute, 11 West 42nd Street, New York, NY 10036, Standardization Documents Order Desk or from the American Society for Quality Control, 611 East Wisconsin Avenue, Milwaukee, WI 53202. [3] Copies may be obtained from the National Fire Protection Association, 1 Batterymarch Park, P.O. Box 9101, Quincy, MA 02269-9101. [4] Copies may be obtained from the American Society for Testing and Materials, 1916 Race Street, Philadelphia, PA 19103-1187. [5] Copies may be obtained from the Document Center, 1504 Industrial Way, Unit 9, Belmont, CA 94002-4044.