SIST EN 14225-2:2005

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Diving suits - Part 2: Dry suits - Requirements and test methodsPotapljaške obleke – 2. del: Suhe obleke – Zahteve in preskusne metodeVetements de plongée - Partie 2 : Combinaisons étanches - Prescriptions et méthodes d'essaiTauchanzüge - Teil 2: Trockentauchanzüge - Anforderungen und Prüfverfahren97.220.40Oprema za športe na prostem in vodne športeOutdoor and water sports equipmentICS:SIST EN 14225-2:2005enTa slovenski standard je istoveten z:EN 14225-2:200501-julij-2005SIST EN 14225-2:2005SLOVENSKI
STANDARD







EUROPEAN STANDARDNORME EUROPÉENNEEUROPÄISCHE NORMEN 14225-2March 2005ICS 97.220.40English versionDiving suits - Part 2: Dry suits - Requirements and test methodsVêtements de plongée - Partie 2 : Combinaisons étanches- Prescriptions et méthodes d'essaiTauchanzüge - Teil 2: Trockentauchanzüge -Anforderungen und PrüfverfahrenThis European Standard was approved by CEN on 14 February 2005.CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this EuropeanStandard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such nationalstandards may be obtained on application to the Central Secretariat or to any CEN member.This European Standard exists in three official versions (English, French, German). A version in any other language made by translationunder the responsibility of a CEN member into its own language and notified to the Central Secretariat has the same status as the officialversions.CEN members are the national standards bodies of Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France,Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia,Slovenia, Spain, Sweden, Switzerland and United Kingdom.EUROPEAN COMMITTEE FOR STANDARDIZATIONCOMITÉ EUROPÉEN DE NORMALISATIONEUROPÄISCHES KOMITEE FÜR NORMUNGManagement Centre: rue de Stassart, 36
B-1050 Brussels© 2005 CENAll rights of exploitation in any form and by any means reservedworldwide for CEN national Members.Ref. No. EN 14225-2:2005: E



EN 14225-2:2005 (E) 2 Contents Page Foreword.3 Introduction.4 1 Scope.5 2 Normative references.5 3 Terms and definitions.6 4 Requirements.8 4.1 General.8 4.2 Mechanical performance of the whole suit.8 4.3 Mechanical performance of the material, seams and attachments.8 4.4 Construction.9 4.5 Practical performance requirements.12 4.6 Optional features.12 5 Test methods.13 5.1 General.13 5.2 Test sequence.13 5.3 Visual Inspection.15 5.4 Mechanical test methods.15 5.5 Testing of suit components.16 5.6 Practical performance test.19 5.7 Testing optional features.22 6 Marking.23 7 Information to be supplied by the manufacturer.24 7.1 Information to be supplied with the suit.24 7.2 Customer information to be supplied at the point of sale.24 7.3 Instructions for use.25 Annex A (normative)
Ratings of practical performance, thermal comfort and perceived exertion.27 A.1 Practical Performance: Scale.27 A.2 Thermal Comfort: Scale and Questionnaire.27 A.3 Perceived Exertion: Scale and Questionnaire.27 Annex ZA (informative)
Relationship between this European Standard and the Essential Requirements of EU Directive 89/686/EEC.29 Bibliography.31



EN 14225-2:2005 (E) 3 Foreword This document (EN 14225-2:2005) has been prepared by Technical Committee CEN/TC 162 “Protective clothing including hand and arm protection and lifejackets”, the secretariat of which is held by DIN. This European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by September 2005, and conflicting national standards shall be withdrawn at the latest by September 2005. This document has been prepared under a mandate given to CEN by the European Commission and the European Free Trade Association, and supports essential requirements of EU Directive 89/686/EEC. For relationship with EU Directive(s), see informative Annex ZA, which is an integral part of this document. This standard for dry suits is Part 2 of 4. The other parts are: - Diving Suits – Part 1: Wet suits − Requirements and test methods. - Diving Suits – Part 3: Actively heated or cooled suits (systems) − Requirements and test methods. - Diving Suits – Part 4: One atmosphere suits (ADS) − Human factors requirements and test methods. This document includes a Bibliography. According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.



EN 14225-2:2005 (E) 4 Introduction This document for dry diving suits has been prepared to meet the needs of persons engaged in underwater activities where the user is breathing underwater, and where thermal comfort and required thermal protection is higher than that provided by a wet suit. A dry suit is also designed to enable the wearers to maintain their buoyancy and to adjust the gas volume in the suit according to their requirements. A dry suit may be comprised of one or more pieces. Dry suits may be used in conjunction with a range of accessories including passive and active undergarments, gloves, a hood and other head protection equipment. The conformity of a dry suit to this document does not imply that it is suitable for all circumstances, nor does the standard make detailed provisions for all the special uses for which dry suits may be utilised. A dry suit manufactured for special purposes may also: a) provide or enable thermal insulation; b) provide special protection. The level of protection and performance offered by a dry suit may be altered by a number of factors, including the water temperature, the depth of the dive, the diver’s work rate and behaviour, and the manner in which the suit has been maintained. The adequacy of the protection provided by a dry suit also depends upon the individual diver’s level of cold tolerance. The degree of thermal protection offered by a dry suit is especially problematic. Appropriate material and manikin tests are being developed and refined, but at best they will only be able to provide broad indications of the likely protection provided by a particular suit to an individual diver.



EN 14225-2:2005 (E) 5 1 Scope This document specifies the construction and performance, of dry suits for wear by divers for underwater activities where the user is breathing underwater. Marking, labelling, information to be provided at the point of sale, and instructions for use are also specified. Laboratory and practical performance tests are specified. 2 Normative references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN 250:2000, Respiratory equipment — Open-circuit self-contained compressed air diving apparatus — Requirements, testing, marking EN 340:2003, Protective clothing — General requirements EN 1809:1997, Diving accessories — Buoyancy compensators — Functional and safety requirements, test methods EN 14225-1:2005, Diving suits — Requirements and test methods EN 14126:2003, Protective clothing — Performance requirements and test methods for protective clothing against infective agents EN 23758:1993, Textiles — Care labelling code using symbols (ISO 3758:1991) EN ISO 105-E02:1996, Textiles — Tests for colour fastness — Part E02: Colour fastness to sea water (ISO 105-E02:1994) EN ISO 105-X12:2002, Textiles — Tests for colour fastness — Part X12: Colour fastness to rubbing (ISO 105-X12:2001) EN ISO 6529:2001, Protective clothing — Protection against chemicals — Determination of resistance of protective clothing materials to permeation by liquids and gases (ISO 6529:2001) EN ISO 13935-2:1999, Textiles — Seam tensile properties of fabrics and made-up textile articles — Part 2: Determination of maximum force to seam rupture using the grab method (ISO 13935-2:1999) EN ISO 13995:2000, Protective clothing — Mechanical properties — Test method for the determination of the resistance to puncture and dynamic tearing of materials (ISO 13995:2000) EN ISO 15027-3:2002, Immersion suits — Part 3: Test methods (ISO 15027-3:2002) ISO 105-A02:1993, Textiles — Tests for colour fastness — Part A02: Grey scale for assessing change in colour ISO 1817:1999, Rubber, vulcanized — Determination of the effects of liquids SOLAS:1974, as amended, Chapter III as amended by IMO Resolution MSC 47(66) and LSA Code. Recommendation on retroreflective tapes on life-saving appliances adopted by Res. A.658(16), Annex 2, issued by
the International Maritime Organisation (IMO)



EN 14225-2:2005 (E) 6 3 Terms and definitions For the purpose of this document, the following terms and definitions apply. 3.1 diving suit suit designed for intended underwater activities, in which the user is breathing underwater 3.2 suit system combination of diving suit components, undergarments and attachments 3.3 dry suit diving suit which covers all or particular regions of the body and which is designed to prevent the ingress of water upon immersion 3.4 closure device to close openings provided for the donning and use of a diving suit NOTE Closures include slide fasteners (3.22). 3.5 attachment item attached to the diving suit 3.6 neck seal closure used to make a water and gas tight seal around the neck 3.7 wrist seal closure used to make a water and gas tight seal around the wrist 3.8 ankle seal closure used to make a water and gas tight seal around the ankle 3.9 face seal closure used to make a water and gas tight seal around the face 3.10 medium pressure pressure between a pressure reducer and a gas control system NOTE This is sometimes referred to as intermediate pressure. 3.11 inflation device device that allows gas to be added to the internal volume of a dry suit 3.12 deflation device device that allows gas to be released from the internal gas volume of
a dry suit



EN 14225-2:2005 (E) 7 3.13 manually operated deflation device deflation device activated by the diver 3.14 inflation hose hose used to supply pressurised gas to the inflation device 3.15 safety pull disconnection device device enabling quick disconnection of a gas connector from the suit 3.16 single action release mechanism mechanism which can be released with one hand 3.17 undergarment garment worn under a dry suit to provide insulation or thermal control 3.18 hypothermia condition of the human body in which the core temperature is below 35 °C 3.19 hyperthermia condition of the human body in which the core temperature is above 39 °C 3.20 hazard source of possible injury or damage to health 3.21 label item permanently attached to a product that carries information related to parts or special features of the product 3.22 slide fastener closure with a fastening device consisting of two flexible interlocking strips and a slider



EN 14225-2:2005 (E) 8 4 Requirements 4.1 General Dry suits shall conform to the requirements listed in Table 1, as applicable. Dry suits incorporating optional features shall also conform to the requirements listed in Table 2, as applicable. 4.2 Mechanical performance of the whole suit 4.2.1 Resistance to cold and hot storage and inflation After the leakage test (5.5.2) a suit, complete with all attachments including valves and hose, shall be subjected to hot and cold storage followed by an inflation resistance test, in accordance with 5.4.2.1. After each hot and cold storage cycle and after the inflation resistance test the suit shall be visually inspected in accordance with 5.3. There shall be no visible signs of damage. 4.2.2 Sea water resistance After the tests for resistance to hot and cold storage and inflation resistance, the suit, complete with all attachments including valves and hose, and the material samples shall be subjected to the seawater resistance test in accordance with 5.4.2.2. After each cycle the suit shall be visually inspected in accordance with 5.3. There shall be no visible signs of damage. 4.2.3 Resistance to cleaning, disinfection and decontamination The suit, complete with all attachments and samples of suit materials and of each material combination shall be subjected to cleaning, disinfection and, where applicable, to decontamination, in accordance with 5.4.2.3 and shall then be visually inspected in accordance with 5.3. There shall be no visible signs of damage or degradation. 4.3 Mechanical performance of the material, seams and attachments 4.3.1 Resistance of material to puncture and dynamic tearing Following preliminary tests (5.4.2) the samples of the suit material shall be tested in accordance with 5.4.3.1. The mean tear length shall be less than 40 mm. 4.3.2 Strength of suit seams When the material samples (with seams) that has been subjected to the tests specified in 5.4.2 is tested in accordance with EN ISO 13935-2:1999 the seam joining each combination of materials used to manufacture the suit, but excluding wrist, ankle, neck and face seals, shall withstand a tensile load of >100 N applied perpendicular to the seam, without visible evidence of permanent deformation or tearing, when visually inspected according to 5.3. 4.3.3 Joint strength of attachments When the material samples (with attachments) that has been subjected to the tests specified in 5.4.2 is tested in accordance with 5.4.3.2, the joints between the basic suit material and the hood, gloves, neck seal (if applicable), wrist seals, boots and socks, where these are attached to the suit, shall each withstand a tensile load of
(100 100+) N without visible evidence of permanent deformation or tearing, when visually inspected according to 5.3.



EN 14225-2:2005 (E) 9 4.3.4 Compactness of slide fasteners Any slide fasteners shall not leak when the suit is tested in accordance with 5.5.2. 4.4 Construction 4.4.1 Sizing The manufacturer shall use the sizing system specified in EN 340:2003 or another sizing system. If the manufacturer uses as sizing system other than that specified in EN 340:2003, the manufacturer shall state at least two body dimensions including at least the height and chest girth of the intended user. When the suit is donned by a test diver in accordance with 5.6.7.3 a) the size of the suit shall correspond to the size marked on it by the manufacturer. 4.4.2 Internal volume control system 4.4.2.1 General If devices for control of the internal volume of the suit are fitted, they shall be positioned in such a manner that they are able to maintain buoyancy control and can be easily manipulated with a single hand when the suit is inspected and tested in accordance with 5.5.1 and 5.6. 4.4.2.2 Inflation hose When the inflation hose is tested unpressurized in accordance with 5.5.1.1, the tensile load and the flexibility of the hose shall conform to EN 250:2000. When tested in accordance with 5.5.1.1 the restriction of the airflow shall not exceed any value stated by the manufacturer. If the inflation hose is provided with a restrictor in order to limit the airflow, means to identify it as such shall be provided. This shall be stated in the information supplied by the manufacturer (see 7.1). When any medium pressure hose assembly is tested in accordance with EN 250:2000 the burst pressure and leakage shall conform to EN 250:2000.



EN 14225-2:2005 (E) 10 Table 1 — Dry suits – Overall requirements Requirement Requirement specified in clause Test method
Whole Suit Sizing 4.4.1 5.6.7.3 a) Leakage resistance 4.4.4 5.5.2
Resistance to hot and cold storage and inflation resistance 4.2.1 5.4.2.1 Sea water resistance 4.2.2 5.4.2.2 Resistance to cleaning, disinfection and decontamination 4.2.3 5.4.2.3
Practical performance 4.5 5.6
Suit Materials Resistance to puncture and dynamic tearing 4.3.1 5.4.3.1 Seam strength 4.3.2 ISO 13935-2:1999 Joint strength of attachments 4.3.3 5.4.3.2 Compactness of slide fasteners 4.3.4 5.5.2
Inflation hose Tensile load resistance 4.4.2.2 5.5.1.1 Flexibility 4.4.2.2 5.5.1.1 Leakage resistance 4.4.2.2 EN 250
Inflation device(s) Strength of bond to suit 4.4.2.3 5.5.1.2 a) Reliability
4.4.2.3 5.5.1.2 e) Air flow rate 4.4.2.3 5.5.1.2 b) Leakage resistance 4.4.2.3 5.5.1.2 f) and 5.5.2 Connector strength 4.4.3 5.5.3
Deflation Devices Strength of bond to suit 4.4.2.4 5.5.1.3 a) Leakage resistance 4.4.2.4 5.5.1.3 b) and 5.5.2 Connector strength 4.4.3 5.5.3 Marking and Information Marking Clause 6 5.3 and 5.6 Information to be supplied by manufacturer Clause 7 5.3 and 5.6
4.4.2.3 Inflation device(s) When each inflation device is tested in accordance with 5.5.1.2 f) and 5.5.2 the inflation device shall not leak. When a suit incorporating a manually operated inflation device is tested in accordance with 5.6, it shall be possible to activate the device with a single gloved hand, when the diver is wearing three finger gloves,
(620+) mm thickness, double lined, or the gloves permanently or separately attached to the suit. When the joint between each suit inflation device and the suit is tested in accordance with 5.5.1.2 a) the bond shall not show visible signs of damage and the suit shall not leak. When tested in accordance with 5.5.1.2 b), the inflation device shall provide an airflow rate of >100 l⋅min-1 when corrected to a standard temperature and pressure of 273,15 K and 1,013 bar.



EN 14225-2:2005 (E) 11 When tested in accordance with 5.5.1.2c) the inflation device shall remain functional with a medium pressure of 20 bar. The inflation device shall not leak air during the periods that the device is either activated or inactive. When tested in accordance with 5.5.1.2 d) the inflation device shall remain functional and shall not leak. When tested in accordance with 5.5.1.2 e) the inflation device shall remain functional and shall not leak. Table 2 — Dry suits with special protection and other optional features
Feature Requirement specified in clause
Test method
Symbol
Thermal insulation – material – suit 4.6.2.1
EN 14225-1:2005, 5.4.3 5.6.7.5 TH Protection against chemicals 4.6.2.2 5.7.1.2 HZ Protection against micro-organisms 4.6.2.3 EN 14126:2003, 4.1.4.1 and 4.1.4.2 BIO Suits to aid visibility 4.6.3 EN ISO 105-E02:1996 EN ISO 105-X12:2002 EN ISO 15027-3:2002 VIS
4.4.2.4 Deflation device(s) The dry suit intended to be fitted with valves shall be provided with at least an automatic overpressure device and a manually operated deflation device. These two devices may be integrated into one unit. When the suit incorporating a manually operated deflation device is tested in accordance with 5.6 it shall be possible to activate the deflation device with a single gloved hand when the diver is wearing three finger gloves, (620+) mm thickness, double lined, or the gloves permanently attached to the suit. The opening of the deflation device on the inside of the suit shall be guarded in such a way as to ensure free gas flow to the device when tested according to 5.3. When tested in accordance with 5.6 it shall be possible to deflate the suit using the manual deflation device. When the joint between each suit deflation device and the suit is tested in accordance with 5.5.1.3 a) the suit shall not leak. When the suit is tested in accordance with 5.6 the deflation device shall not allow water ingress into the suit. When the air leakage test is carried out in accordance with 5.5.1.3 b) the amount of water introduced into the manometer over the 1 h test period shall not exceed 1 000 ml. When the flow test is carried out in accordance with 5.5.1.3 b) the pressure shall not exceed 25 mbar. The flow capacity of the overpressure device shall exceed the flow capacity of the inflation device, with a maximum pressure of 40 mbar inside the suit when tested according to 5.5.1.4 a). If the overpressure device is of the non-adjustable type, the pressure inside the suit during the actuation of the inflation device shall not exceed 40 mbar when tested according to 5.5.1.4 b). If the overpressure device is of the adjustable type, the pressure inside the suit during the actuation of the inflation device shall not exceed
25 mbar when the valve is at its minimum opening pressure setting, and 40 mbar when at its maximum setting when tested according to 5.5.1.4 c).



EN 14225-2:2005 (E) 12 4.4.3 Connectors When tested in accordance with 5.6 external suit connectors, including the inflation hose, shall be capable of being readily connected and disconnected with a gloved hand when the diver is wearing three finger gloves, (620+) mm thickness, double lined, or the gloves permanently attached to the suit. External suit connectors shall have a single action release mechanism. If a gas connection has a safety pull disconnection device, when tested in accordance with 5.5.3 the device shall not be disconnected when a tensile force of (12550+) N is applied to it. 4.4.4 Leakage resistance When tested in accordance with 5.5.2 in the prone and in the supine position the suit shall not allow the escape of more than one bubble of gas during the final minute of the 15 min immersion. 4.5 Practical performance requirements When tested in accordance with 5.6.7.2 at an ambient temperature of (−20 ± 1) °C it shall be possible for the suit system to be donned and doffed with the assistance of no more than one person. When dry suits are subjected to practical performance tests in accordance with 5.6 the test divers shall be able to carry out all the procedures listed in 5.6 and not report a practical performance score of 5 or more (given in A.1) for more than 3 of the separate test procedures and no score higher than 8 for any procedure. When tested in accordance with 5.6 the satisfactory surface condition of the suit in contact with the user shall be confirmed by showing no excessive irritation, abrasion or other skin injuries. 4.6 Optional features 4.6.1 Hoods If a hood is attached to the suit, it shall be constructed in such as way as to ensure that a seal cannot form between the hood and the ear when tested in accordance with 5.6. 4.6.2 Special protection 4.6.2.1 Suits with thermal insulation If the manufacturer claims the suit material is of a thermal performance class, it shall conform to the requirements for that performance class as specified in EN 14225-1:2005, 4.3. When suits with thermal insulation are tested in a cold dive in accordance with 5.6.7.5, at no stage during the dive shall the test diver report a thermal comfort score of 4 or less or a perceived exertion score of 5 or more. (see A.2 and A.3). 4.6.2.2 Protection against chemicals For suits intended to provide the user with protection against chemicals in the diving environment, the suit material and critical interfaces, e.g. seams, latex closures and slide fasteners, shall be tested in accordance with 5.7.1.2. The average normalized breakthrough detection time shall be a minimum of 20 min. Materials with an average normalized breakthrough detection time of 20 min to 60 min shall be deemed to have a low protection index and materials with an average normalized breakthrough detection time of more than 60 min shall be deemed to have a high protection index.



EN 14225-2:2005 (E) 13 The protection index, and the chemicals which the suit protects against, shall be marked on the suit [see Clause 6 item n)]. The manufacturer shall provide instructions on effective methods for decontaminating the suit and measuring that decontamination has been effectively achieved. 4.6.2.3 Protection against micro-organisms For suits intended to provide the user with protection against micro-organisms e.g. infective agents in the diving environment, the suit material and critical interfaces, e.g. seams, latex closures and slide fasteners, shall have at least the performance levels Class 6 when tested in accordance with in EN 14126:2003, 4.1.4.1 and 4.1.4.2 4.6.3 Visibility
4.6.3.1 Colour If the suit manufacturer claims the suit to have a colour enhancing the visibility, this property shall be documented and include an area of the suit not less than 50 % of the total suit area when tested in accordance with 5.3. This enhanced visibility shall be for the relevant use environment. The colour fastness (dry and wet) of suit material when determined in accordance with ISO 105-A02:1993 shall be resistant to rubbing (wet and dry), when tested in accordance with EN ISO 105-X12:2002 to at least step 4, and to salt water when tested in accordance with EN ISO 105-E02:1996 to at least step 4. 4.6.3.2 Retroreflective material There shall be affixed to the suit surface a total area of at least 400 cm2 of material, which is retroreflective to light and which conforms to the requirements detailed in SOLAS:1974, as amended, Chapter III as amended by IMO Resolution MSC 47(66) and LSA Code, adopted by Res. A.658(16), Annex 2, issued by
the International Maritime Organisation (IMO). These retroreflective areas shall be located in at least two positions of the suit. Preference shall be given to the upper body, and parts of the suit that will not be covered by attachment or by other parts of the diving equipment. When retroreflective material attached to a suit, and the same material that has not been attached to a suit are tested in accordance with EN ISO 15027-3:2002, 3.11.6.4.2, there shall be no difference in retroreflectivity between the two samples. 5 Test methods 5.1 General At least three dry suits of different sizes including the largest and the smallest sizes, as stated by the manufacturer, together with material samples shall be submitted for visual inspection (see 5.3) and testing. One suit and suit material samples where appropriate shall undergo laboratory tests in accordance with 5.4 and 5.5, and all three suits shall undergo leakage test (5.5.2) and practical performance tests under realistic conditions in accordance with 5.6. 5.2 Test sequence The tests shall be conducted in accordance with the flow chart shown in Figure 1.



EN 14225-2:2005 (E) 14 Figure 1 — Test flow chart



EN 14225-2:2005
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