




已閱讀5頁,還剩10頁未讀, 繼續(xù)免費閱讀
版權說明:本文檔由用戶提供并上傳,收益歸屬內容提供方,若內容存在侵權,請進行舉報或認領
文檔簡介
gm worldwide engineering standardsgmw146381 scopethis specification covers requirements for extruded single and multilayered lines used in fuel, vapor and evaporative emissions. the vapor and evaporative emission lines covered by this specification can either be straight or convoluted. operating temperatures for lines covered by this specification range from 40c to 90c with excursions to 115c. other documents which describe the performance and dimensional requirements of these components and assemblies manufactured from these components are gme 60223, gm9060p, gm9080p, gm9676p, and chart #10093203. in addition to the test requirements listed in this specification, additional fuel recirculation and/or permeation testing may be required for validation of the tubing and/or quick-connectors used in the fuel line assembly. any additional requirements are to be defined by the gm materials engineer.1.1 material descriptioneach material shall be defined by a construction and a grade. the construction identifies the layers utilized in the wall. the grades identifies the conductivity of the line. grade c identifies a tube that has a conductivity greater than 106 ohms/sq . grade n identifies a tube which has less than 106 ohms/sq . each version shall consist of a smooth bore inner tube. all multilayer constructions shall have concentric layers. many grade n applications can also be supplied as corrugated or convoluted tubing and shall be identified with an alternate specification.1.1.1 construction (see appendix a1) 1.1.1.1 type a grade n only: this tube shall consist of a single layer of either polyamide 12 (pa12) or polyamide 11 (pa11).1.1.1.2 type b this tube is a laminated construction with an inner tube of etfe (ethylene-tetrafluoroethylene copolymer) and a cover of pa12. grade c consists of an inner tube of conductive etfe and an outer tube of nonconductive etfe tube. the cover shall consist of pa12. the cover shall be 70 to 80% of the total wall thickness and the minimum thickness of the conductive etfe layer shall be 0.05 mm.grade n consists of a single inner tube of nonconductive etfe. the cover shall consist of pa12. the cover shall be 70 to 80% of the total wall thickness and the minimum thickness of the conductive etfe layer shall be 0.05 mm.1.1.1.3 type cgrade n only this tube is a laminated construction with an inner tube of pa12, a barrier layer of pbt and a cover of pa12. the pbt barrier layer shall have a thickness of 0.25 0.05 mm.1.1.1.4 type d this tube is a laminated construction with an inner tube pa12, a barrier layer of pvdf and a cover of pa12. grade c shall consist of an inner layer of conductive pa12 with a nominal thickness of 0.1 0.02mm, and an intermediate layer of nonconductive pa12. the barrier layer shall be pvdf and have a nominal thickness of 0.2 0.05mm and will be located in the center of the tubing wall. the cover will be nonconductive pa12.grade n shall consist of an inner layer of nonconductive pa12. the barrier layer shall be pvdf and have a nominal thickness of 0.2 0.05mm and will be located in the center of the tubing wall. the cover will be nonconductive pa12.1.1.1.5 type e this type construction shall be specified on the drawing and can be identified as either grade c or n.1.1.1.6 type f the tube is an inner tube of polytetrafluoroethylene (ptfe) and a cover of pa12. grade c shall consist of an inner barrier layer of conductive ptfe with a minimum thickness of 0.076mm. the intermediate layer shall be nonconductive ptfe. the total barrier layer thickness for both grades shall be 0.38 0.05mm. the outer layer shall be pa12. the outer layer shall be 55 to 75% of the wall thickness.grade n shall consist of an inner layer of ptfe. the total barrier layer thickness for both grades shall be 0.381 0.050mm. the outer layer shall be pa12. the outer layer shall be 55 to 75% of the wall thickness.1.1.1.7 type g evohgrade n only this tube is a laminated construction with an inner tube of pa12, a barrier layer of evoh and a cover of pa12. the evoh barrier layer shall have a thickness of 0.15 0.03 mm.1.1.1.8 type h the tube is a laminated construction with an inner tube of conductive etfe (ethylene-tetrafluoroethylene copolymer) an intermediate layer of adhesive and a cover of pa12.grade c shall consist of a conductive etfe with a thickness of 0.200 0.076mm. the intermediate layer of adhesive shall have a thickness of 0.10 0.05mm. the cover shall consist of pa12 with a thickness of 0.70 0.13mm. the cover shall be 70 to 90% of the wall thickness.grade n shall consist of a nonconductive etfe with a thickness of 0.200 0.076mm. the intermediate layer of adhesive shall have a thickness of 0.10 0.05mm. the cover shall consist of pa12 with a thickness of 0.70 0.13mm. the cover shall be 70 to 90% of the wall thickness.1.1.1.9 type i this tube is a laminated construction with an inner tube of efep (ethylene-perfluoroethylenepropylene copolymer) and a cover of pa12.grade c shall consist of a conductive efep with a thickness of 0.200 0.050mm. the cover shall consist of pa12 with a thickness of 0.80 0.05mm.grade n shall consist of a nonconductive efep with a thickness of (0.200 0.050) mm. the cover shall consist of pa12 with a thickness of 0.80 0.05 mm1.2 labeling tubing released to this specification must be labeling based on the requirements of the region which it is released. tubing for gmna must be labeled per appendix a5. tubing for gme must be labeled per din 73 378. labeling requirements for other regions shall be coordinated with the regional materials engineer.2 referencesnote: only the latest approved standards are applicable unless otherwise specified.2.1 external standards/specificationsdin 73378en 60243-2iec 60093iec 60684-2iso 178iso 527sae j1681sae j2260sae j17372.2 gm standards/specificationsgme 60223gme 60255gme l0003gm9005pgm9060pgm9080pgm9676pgmw3001gmw3059gmw147009984297998612199862313 requirementsminimum bend diameter referenced in specific test procedures shall be calculated per sae j2260. a quick table reference has been provided in appendix a2.requirements reference tablesectiontest#samples3.1burst 53.2high temperature burst 53.3reference stressn/a3.4cold temperature flexibility53.5surface resistivity53.6disruptive discharge53.7cold impact53.8kink resistance53.9burst on kinked tube53.10resistance to stone impact53.11layer adhesion 53.12tensile53.13elongation53.14flexural test53.15zinc chloride53.16calcium chloride53.17fuel resistance recirculation5/each fuel3.18auto-oxidized fuel resistance53.19permeability 53.20resistance to brake fluid53.21resistance to underbody protective wax53.22resistance to oil53.1 burst test3.1.1 test procedure the test apparatus consists of a suitable source of hydraulic pressure and the necessary gages and piping. the length of the tubing should be 305.0 5.0mm. plug one end of the test specimen and mount in the apparatus with the other end unrestrained. the samples shall be assembled to ensure that the result will be a burst in the tube. the tubing is stabilized for 1 to 3 h at 23c. pressure is applied at room temperature, 23 2c, at a rate of 7mpa/minute 1mpa/minute. continue at this rate until the tubing bursts. if the tube separates from the fitting the result shall not be used.3.1.2 acceptance determination burst pressure shall exceed requirements as defined in table 1. table 1: burst pressuresizegrade c(mpa)grade n(mpa) 8 mm 6.5 mpa 6.5 mpa 8 to 10 mm 5 mpa 5 mpa 10 to 13 mm 4 mpa 4 mpa 13 to 16 mm 4.5 mpa 4.5 mpa 16 mm 4 mpa 4 mpa3.2 high temperature burst test3.2.1 test procedure the test apparatus consists of a suitable source of hydraulic pressure and the necessary gages and piping. the oil should be at 115 1c. the length of the tubing should be 305.0 5.0mm. plug one end of the test specimen and mount in the apparatus with the other end unrestrained. the samples shall be assembled to ensure that the result will be a burst in the tube. the tubing shall be stabilized for 1 h at 115c. pressure is applied at 115c at a rate of 7mpa/min 1mpa/min. continue at this rate until the tubing burst. if the tube separates from the fitting the result shall not be used. *for tubing of id 12.50 mm and larger, used for low pressure ( 6.9 kpa maximum operating pressure), and low temperature applications ( 90c maximum intermittent temperature), there is no high temperature burst requirement. 3.2.2 acceptance determination the minimum burst pressure is identified in the table 2 below.table 2: high temperature burst pressuresizegrade c(mpa)grade n(mpa) 13 mm 2.0 mpa 2.0 mpa 13 mm 1.2 mpa 1.2 mpa3.3 basic stress3.3.1 test procedure the reference stress, v (hoop strength) shall be calculated from the results of 3.1 burst pressure by the following formula as defined by din 73 378:v = (pb*dm)/(2*s) in mpav : basic stress (hoop strength) in mpapb : burst pressure in mpadm = d1 - s : middle diameterd1 : outer diameters : tube wall thickness3.3.2 acceptance determination the tubing shall have a basic stress v 25 mpa3.4 cold temperature flexibility test3.4.1 test procedure the sample, consisting of a 305.0 5.0mm length of tubing, is exposed in an air-circulating oven at 110 2c for 24 h. the sample is removed from the oven and within 30 minutes exposed for 4 h at -40 2c. a mandrel having a diameter equal to 12 times the nominal diameter (nominal od) of the tubing is also exposed for 4 h at -40 2c. in order to obtain uniform temperatures the tubing and mandrel may be supported by a nonmetallic surface during the entire period of the exposure. immediately following this exposure, the tubing is bent 180 degrees over the mandrel, with this bending motion completed within a period of 4 to 8 s. for tubing of id 12.50 mm and larger, the sample length shall be 610.0 5.0mm. 3.4.2 acceptance determination the tubing shall show no evidence of fracture. 3.5 surface resistivity this section is required for grade c only. the test apparatus consists of a resistivity meter (meg-check 2100a r-meter from associates research inc. or equivalent) and a set of copper pins (diameter approximately 0.1mm larger than id of tubing).figure 1: schematic of resistance measurement fixture3.5.1 test procedure:1.measure sample length, record as lo (mm)2.measure inner diameter of sample. record as d (mm).3.insert the copper pins to full depth in ends of tube assuring a tight fit. measure the depth of the copper pin a in mm. attach the leads to the resistivity meter as shown in figure 9.4.record the resistance r (ohm). 5.calculate: surface resistivity (ohm/sq) = r(pd)/(lo- 2a)3.5.2 acceptance determinationthe maximum resistivity shall be 106 ohm/sq.3.6 disruptive discharge voltage grade n tubes specified for fuel applications must meet the requirements of section 3.6 based on en 60243-2 and iec 60684-2. the test is performed with variable dc voltage according to the test-setup in figure 2.3.6.1 test procedure a ball electrode ( 50 mm) and a metal bar (in the tube) are used as electrodes. the diameter of the metal bar shall not be smaller than the inner diameter of the tube minus 0.1 mm. with weakly inhomogeneous field, positive polarity is applied to the ball and the metal bar is grounded. in order to prevent sliding charges along the tubing surface, the test piece is embedded in silicone oil. voltage is increased to +40 kv with a speed of 1 kv/s. this value shall be kept for 1 min. then the voltage is increased with a speed of 1 kv/s until a disruptive or a creeping discharge appears or the maximum voltage of 140 kv is reached. the voltage when discharge appears is defined as discharge voltage. at discharge the type of discharge, disruptive or creeping discharge, shall be noted.figure 2: test set up of disruptive discharge test1 dc voltage (+0.140) kv2 hose test piece3 silicone oil4 ground potential3.6.2 acceptance determination the discharge must be greater than or equal to 40 kv.3.7 cold impact test two procedures are described for cold impact testing. only one procedure is necessary for submission. section 3.7.1 is required for gmna. section 3.7.2 is required for gme. for submittal to other regions the procedure must be agreed upon by the regional gm materials engineer. 3.7.1 falling weight cold impact3.7.1.1 test procedure test fixture must conform to appendix a3 requirements. the specific test procedures and equipment used must have gm engineering approval. sample length to be 305.0 5.0mm. samples must be taken from the same lot as the initial samples subjected to 3.1 burst test. the tubing sample is exposed to 40c for 4 h. the impact test apparatus described by appendix a3 is exposed to 40c for a minimum of 1 h at 40c. the impact must be performed at 40c. the sample is inserted into the test apparatus, and impacted by allowing the head to fall 305.0 3.0mm. the sample is allowed to return to 23 2c within 30 5 minutes, and then subjected to the burst test procedure per 3.1.1.3.7.1.2 acceptance determination samples must meet the requirements of section 3.1 burst test. additionally, each sample burst tested after cold impact exposure must achieve at least 70% of the average burst value for the five initial samples from the same tubing lot per 3.1 burst test.3.7.2 charpy cold impact3.7.2.1 test procedure must be run per din 73378 with reference to iso 179. the test is executed with at -40 3c.3.7.2.2 acceptance determination no breaks.3.8 kinking resistance test3.8.1 test procedure the sample length for the test is to equal 1.9 times the bending diameter, as defined in appendix a2. the minimum ball diameter for the test ball is to equal 0.4 times the minimum inside diameter, as defined in appendix a2. the test fixture to be used for the test is as described in figure 3. a sample of minimum thickness tubing is to be selected out of a random sample of ten pieces of tubing. the wall thickness and ovality at point a on the test sample is measured. wall thickness is also to be measured after completion of the test. the tube is installed in the test fixture described in figure 3. when the tube is installed, the tube is bent in the same plane and direction as its free state curvature. the tube, installed in the fixture, is placed into an oven at 115 2c and soaked for 1 h. the tube and fixture are removed from the oven, and within 5.5 minutes, the test ball is passed through the tube, with the tube still in the fixture. additionally, tubing for grade c shall be subjected to the surface resistivity test procedure per 3.5.1. 2 x minimum bend radiusfixture base(plate appr. 10mm thick with holes as shown to fit the tube)tubingfigure 3: kinking resistance test fixture3.8.2 acceptance determination test ball must pass through the tube without restriction. additionally, grade c must meet the requirements of section 3.5 surface resistivity.3.9 burst test on kinked tubing3.9.1 test procedure stabilize tubing for 0.5 to 3 hours at 23c. completely bend tubing so it is kinked and two lengths of tubing on either side of kink touch along entire length. straighten tubingcompletely. repeat so tubing is kinked a total of five times at same position. perform burst test procedure per section 3.1.1.3.9.2 acceptance determination samples must meet requirements of the 3.1 burst test.3.10 resistance to stone impact3.10.1 test procedure tubing shall be subjected to stone impact test procedure per gmw14700 for 10 cycles at 40c. samples must be taken from the same lot as the initial samples subjected to 3.1 burst test. the sample length is 305.0 5.0 mm. following the stone impact test, sample is subjected to burst test procedure per section 3.1.1.3.10.2 acceptance determination sample must meet all of the requirements of 3.1 burst test. additionally, each sample burst tested after stone impact must achieve at least 70% of the average burst value for the 5 samples from the same tubing lot burst tested per 3.1 burst test.3.11 layer adhesion test section 3.11.1 describes the recommended adhesion procedure. optional adhesion procedures may be used upon agreement by regional materials engineer.3.11.1 test procedure cut a strip of tubing into approximately 6 mm wide helical coil equal in length to 5 times the circumferences of the tubing using a tool as shown in figure 10. bend the helical coil in reverse of coiling. apply a weight of 2 kg to the uncoiled end.3.11.2acceptancedetermination no delamination should occur between layers.figure 4: adhesion test tool3.12 tensile strength test3.12.1 test procedure samples shall be tested per iso 527. the tubing is clamped into a tensile test fixture which allows tensile strength and elongation to be measured without slippage or breakage of the tubing at the tensile tester jaw. the elongation is to be measured with either an extensometer or with elongation bench marks (i.e., paper dots attached to the tubing). the initial extensometer measuring distance or the elongation bench marks separation is to equal 50 mm. the following test conditions must be met: test speed = 50 mm/minute test temperature = (23 2) c rh = 50 % the tensile strength and elongation testing is conducted under th
溫馨提示
- 1. 本站所有資源如無特殊說明,都需要本地電腦安裝OFFICE2007和PDF閱讀器。圖紙軟件為CAD,CAXA,PROE,UG,SolidWorks等.壓縮文件請下載最新的WinRAR軟件解壓。
- 2. 本站的文檔不包含任何第三方提供的附件圖紙等,如果需要附件,請聯(lián)系上傳者。文件的所有權益歸上傳用戶所有。
- 3. 本站RAR壓縮包中若帶圖紙,網(wǎng)頁內容里面會有圖紙預覽,若沒有圖紙預覽就沒有圖紙。
- 4. 未經(jīng)權益所有人同意不得將文件中的內容挪作商業(yè)或盈利用途。
- 5. 人人文庫網(wǎng)僅提供信息存儲空間,僅對用戶上傳內容的表現(xiàn)方式做保護處理,對用戶上傳分享的文檔內容本身不做任何修改或編輯,并不能對任何下載內容負責。
- 6. 下載文件中如有侵權或不適當內容,請與我們聯(lián)系,我們立即糾正。
- 7. 本站不保證下載資源的準確性、安全性和完整性, 同時也不承擔用戶因使用這些下載資源對自己和他人造成任何形式的傷害或損失。
最新文檔
- 護理服務方法
- 網(wǎng)絡文學作品影視改編權合作與分成協(xié)議
- 虛擬游戲裝備交易平臺分割及收益協(xié)議
- 花園圍欄翻新與維護責任協(xié)議
- 譫妄個案護理
- 夫妻忠誠保證及共同債務處理協(xié)議
- 外籍技術顧問駐場咨詢與技術服務協(xié)議
- 生物醫(yī)藥數(shù)據(jù)出境安全審查及合規(guī)操作協(xié)議
- 知識產(chǎn)權代理機構股權合作與知識產(chǎn)權戰(zhàn)略布局協(xié)議
- 智慧社區(qū)智能安防系統(tǒng)服務與物業(yè)管理平臺合作協(xié)議
- 2025屆高考語文作文備考之審題立意30道選擇題訓練(附答案)
- 21. 三黑和土地 課件
- 挖掘機理論試題及答案
- 2025年銀行從業(yè)資格考試個人理財真題卷權威解讀
- 興安盟2025年興安盟事業(yè)單位春季專項人才引進30人筆試歷年參考題庫附帶答案詳解
- 西部計劃考試試題及答案
- 2023江蘇南通軌道交通集團有限公司運營分公司公開社會招聘97名工作人員筆試參考題庫附帶答案詳解
- 嬰兒保姆協(xié)議書范本
- 裝修施工危險性較大工程應急處理預案:保障施工安全
- 出版行業(yè)書籍的包裝與運輸實施方案
- 光纜線路工程驗收標準
評論
0/150
提交評論