华东交通大学学报
華東交通大學學報
화동교통대학학보
JOURNAL OF EAST CHINA JIAOTONG UNIVERSITY
2014年
2期
91-94
,共4页
郑澄锋%杨明昌%耿之周%魏军扬
鄭澄鋒%楊明昌%耿之週%魏軍颺
정징봉%양명창%경지주%위군양
土工膜焊缝%充气时间%充气压强%剥离强度
土工膜銲縫%充氣時間%充氣壓彊%剝離彊度
토공막한봉%충기시간%충기압강%박리강도
geomembrane welding seam%air inflation time%air inflation pressure%separate test study%peel strength
土工膜焊缝剥离强度是整个防渗结构可靠性保障的关键因素之一。为了分析充气时间和充气压力对土工膜焊缝剥离强度质量的影响,选择7种不同厚度的HDPE土工膜在不同充气时间和充气压力条件下进行焊缝剥离强度试验。试验结果表明:在相同土工膜厚度和充气时间(3 min或10 min)条件下充气压力越大,焊缝剥离强度越小,土工膜厚度在0.25~1.00 mm范围内影响较大,在土工膜厚度1.00~2.00 mm范围影响较小;相同土工膜厚度和充气压力(0.1 MPa或0.2 MPa)条件下在土工膜厚度较薄范围0.25~1.00 mm内随着充气时间的增加剥离强度在减小,影响较小,在土工膜厚度较厚范围内1.00~2.00 mm范围内充气时间对剥离强度影响很小,可以忽略不计;相同充气时间和充气压力条件下,土工膜焊缝剥离强度随着土工膜厚度的增加而增大;土工膜焊缝工艺在土工膜厚度小于1.0 mm时,充气压力宜选择0.1 MPa;土工膜厚度大于1.0 mm时,充气压力宜选择0.2 MPa,充气时间可统一选择为10 min。
土工膜銲縫剝離彊度是整箇防滲結構可靠性保障的關鍵因素之一。為瞭分析充氣時間和充氣壓力對土工膜銲縫剝離彊度質量的影響,選擇7種不同厚度的HDPE土工膜在不同充氣時間和充氣壓力條件下進行銲縫剝離彊度試驗。試驗結果錶明:在相同土工膜厚度和充氣時間(3 min或10 min)條件下充氣壓力越大,銲縫剝離彊度越小,土工膜厚度在0.25~1.00 mm範圍內影響較大,在土工膜厚度1.00~2.00 mm範圍影響較小;相同土工膜厚度和充氣壓力(0.1 MPa或0.2 MPa)條件下在土工膜厚度較薄範圍0.25~1.00 mm內隨著充氣時間的增加剝離彊度在減小,影響較小,在土工膜厚度較厚範圍內1.00~2.00 mm範圍內充氣時間對剝離彊度影響很小,可以忽略不計;相同充氣時間和充氣壓力條件下,土工膜銲縫剝離彊度隨著土工膜厚度的增加而增大;土工膜銲縫工藝在土工膜厚度小于1.0 mm時,充氣壓力宜選擇0.1 MPa;土工膜厚度大于1.0 mm時,充氣壓力宜選擇0.2 MPa,充氣時間可統一選擇為10 min。
토공막한봉박리강도시정개방삼결구가고성보장적관건인소지일。위료분석충기시간화충기압력대토공막한봉박리강도질량적영향,선택7충불동후도적HDPE토공막재불동충기시간화충기압력조건하진행한봉박리강도시험。시험결과표명:재상동토공막후도화충기시간(3 min혹10 min)조건하충기압력월대,한봉박리강도월소,토공막후도재0.25~1.00 mm범위내영향교대,재토공막후도1.00~2.00 mm범위영향교소;상동토공막후도화충기압력(0.1 MPa혹0.2 MPa)조건하재토공막후도교박범위0.25~1.00 mm내수착충기시간적증가박리강도재감소,영향교소,재토공막후도교후범위내1.00~2.00 mm범위내충기시간대박리강도영향흔소,가이홀략불계;상동충기시간화충기압력조건하,토공막한봉박리강도수착토공막후도적증가이증대;토공막한봉공예재토공막후도소우1.0 mm시,충기압력의선택0.1 MPa;토공막후도대우1.0 mm시,충기압력의선택0.2 MPa,충기시간가통일선택위10 min。
Geomembrane welding seam peel strength is one of the key factors for the impervious structure reliabili-ty. In order to get the effect of air inflation time and air inflation pressure on geomembrane seam peel strength, in this paper, seven kinds of HDPE geomembrane with different thickness were selected to make the welding seam peel strength test at different aeration time and filling pressure conditions. The test results show that:Under the test condition of the same geomembrane thickness and the same air inflation time (3 min or 10 min), geomembrane welding seam peel strength decreases with the normal stress increasing, having great influence in the geomem-brane thickness range of 0.25-1.00 mm and less influence on geomembrane thickness rang of 1.00-2.00 mm;Un-der the test condition of the same geomembrane thickness and the same air inflation prssure (0.1 MPa or 0.2 MPa), geomembrane welding seam peel strength decreases with the air inflation stress increasing, having less influence in the geomembrane thickness range of 0.25-1.00 mm and less influence, even can be neglected, on geomembrane thickness range of 1.00-2.00 mm;Under the condition of same air inflation time and air inflation pressure, geo-membrane seam peel strength increases with increasing of the geomembrane thickness;In geomembrane welding seam technology,when the thickness is less than 1.0 mm, air inflation pressure should be 0.1 MPa, and when the thickness is more than 1.0mm, air inflation pressure should be 0.1 MPa, and air inflation time should be 10 min.
