膨胀力

The interrelation of expansive force with water absorption rate and the law of expansive force with expansive strain are studied.

并进一步探讨了膨胀红砂岩膨胀力与吸水率的相关性，继而研究膨胀红砂岩膨胀力与膨胀变形的规律。

SDF from tea is a superior dietary fiber with high capacities of water holding, swelling and oil holding, as well as good absorption on cholesterol and sodium cholate.

结果表明：pH值对茶叶SDF提取的影响最大，其次依次为温度、酶添加量、时间、料液比；茶叶SDF提取的最佳工艺为：温度60℃、酶添加量0.08g/g、pH值9.0、时间2.0h、料液比1：20，提取率达53.72%，所得SDF具有较好持水力、膨胀力和持油力，对胆固醇、胆酸钠也有一定吸附作用，为一种优质膳食纤维。

Konjac flour by chemical modification, the swelling force is very strong, and its viscosity than the known plant gum, is an exceptionally strong performance of the adhesive.

魔芋的化学改性，面粉的膨胀力非常强，它比已知的植物胶的粘度，是对胶粘剂异常强劲的表现。

The results showed that the water holding capacity, swelling and viscosity of hemicellulose B were higher than that of hemicellulose A.

对它们的性能进行了分析，研究表明，在持水力、膨胀力和粘度方面，半纤维素B均优于半纤维素A及纤维素。

It is discovered by the test during initial stage of linear charge explosion that the main forces for fragmentation are the shock wave and the gas pressure.

试验发现条形药包爆炸初期，破裂的发展主要由冲击波和高压气体膨胀力驱动。

The results show that, with the expansion cone angle remaining unchanged, the sizing length of expansion cone does not have much effect on the residual stress of casing after expansion, but it has much effect on the expansion force required by tube expansion. The expansion cone angle has no effect on the maximum residual stress of casing, but it has remarkable effect on expansion force. When the radial component force of expansion force is greater than the material's tensile strength, the damage to the material will arise.

研究结果表明，在膨胀锥锥角保持不变的情况下，膨胀锥定径长对膨胀后套管的残余应力没有太大影响，但对套管膨胀所需要的膨胀力有较大影响；膨胀锥锥角对套管最大残余应力没有影响，但对膨胀力的影响十分明显，当膨胀力的径向分力大于材料的抗拉强度时，材料将发生破坏。

The results indicate that the different thermal expansions and elastoplastic properties and distributed randomness of various mineral particles composed of oil shale will lead to the nonuniformity of thermal field , deformation field and stress field in heating process , which makes the particles of oil shale deform incompatibly : and the release of product pyrolysis results in irreversible damages of oil shale material and structure . These are the main reasons for the thermal fracture of oil shale .

研究结果表明：组成油页岩各种矿物颗粒热膨胀和弹塑性性质的不同及其分布的随机性，导致油页岩加热过程中温度场，变形场和应力场的非均匀性，使得油页岩颗粒间变形不协调和油页岩热解产物释放引起油页岩材料与结构性能发生不可逆的劣化损伤，这是油页岩发生热破裂的主要原因；热传导方式加热油页岩，温度的传递比较缓慢，加热井和生产井的间距不宜过大，对油页岩储层性质存在差异时，注热井应选择较高热导率的区段；油页岩的层理对油页岩地下原位开发形成渗透带至关重要，油页岩达到热解温度会产生附加的膨胀力，首先在层理处开裂，应充分利用油页岩层理赋存条件改造其渗透性。

The results indicate that the different thermal expansions and elastoplastic properties and distributed randomness of various mineral particles composed of oil shale will lead to the nonuniformity of thermal field, deformation field and stress field in heating process, which makes the particles of oil shale deform incompatibly: and the release of product pyrolysis results in irreversible damages of oil shale material and structure. These are the main reasons for the thermal fracture of oil shale. When oil shale is heated through thermal conduction, temperature transfers slowly, so the spacing between heating well and production well should not be kept too long. When difference exists in oil shale reservoir's properties, heating well should be chosen in the high conductivity region. Oil shale's stratification is vital for developing permeation zone in in-situ retorting. Oil shale will generate additional expansion force as it reaches its pyrolysis temperature, and stratification will be cracked first, so the oil shale stratification should be utilized to enhance its permeability.

研究结果表明：组成油页岩各种矿物颗粒热膨胀和弹塑性性质的不同及其分布的随机性，导致油页岩加热过程中温度场、变形场和应力场的非均匀性，使得油页岩颗粒间变形不协调和油页岩热解产物释放引起油页岩材料与结构性能发生不可逆的劣化损伤，这是油页岩发生热破裂的主要原因；热传导方式加热油页岩，温度的传递比较缓慢，加热井和生产井的间距不宜过大，对油页岩储层性质存在差异时，注热井应选择较高热导率的区段；油页岩的层理对油页岩地下原位开发形成渗透带至关重要，油页岩达到热解温度会产生附加的膨胀力，首先在层理处开裂，应充分利用油页岩层理赋存条件改造其渗透性。

In summer,when ice and snow melt, water pressure, softening and mudding make strengthen of rock mass decrease.

一方面，本区冻融作用十分强烈，在冬季由于岩体节理裂隙中水冻结而膨胀，对岩体产生膨胀力，在夏季，冰雪融化后，水的压力及软化泥化作用使岩体强度降低。

Lithologies are mostly sand and carbonate rocks, caps are mud rock, shale and magmatite. Entrap types are anticline, fault block rebuilt by breaking and the screened entrap diapered rock mass. The composition is CO_2, N_2, CH_4, C_2H_6 and He etc. It is magma air source body and its geologic fashions are intrusion and buried volcanic conduit. The relations between gas reservoirs and gas source bodies have three types: magma intrusion-breaking-communicated gas reservoir, magma intrusion-contacted CO_2 reservoir and buried volcanic conduit-contacted gas reservoir. The CO_2 migration in magma intrusion is consisted of fusing and crystallizing phases;it in volcanic conduit is consisted of near-surface effusion and crystallizing phases.The buoyancy of CO_2 in water far more than migration resistance in breaking or chink, CO_2 is easy float upward, the floating can results in differentiation of different density gases and concentration of sealed gas. The gas in sand reservoir firstly migrate into the higher porosity and coefficient of permeability sand, and along with the pressure going up it migrate into the lower. In magma intrusion-breaking-reservoir migration, CO_2 firstly migrate into watered breaking, began gravity differentiation and concentrate, the gas pressure time and again go up, CO_2 migrate into reservoir and concentrate under expansibility as the pressure reach upward a given extend. The CO_2 in reservoir experience four breaking modes: chemistry deposition, dissolution, diffusion and mechanic breaking, the pressure balance can be broken by faulting and the CO_2 will further migrate and form new reservoir.

济阳坳陷已发现的八里泊、阳25、平方王、平南、高青、花17 CO_2气藏主要储集层位有奥陶系、中生界、沙四段、沙三段、沙一段、馆陶组和明化镇组，储集层岩性以砂岩和碳酸盐岩为主，盖层以泥质岩、页岩和岩浆岩为主。；圈闭类型主要为受断裂改造的背斜、断块及刺穿岩体遮挡圈闭。；气体成分主要有CO_2、N_2、CH_4、C_2H_6、He等。；主要气源体为岩浆气源体，气源体的主要地质形式为侵入体和埋藏的火山通道。；气藏和气源体的空间关系有岩浆侵入体一断裂一气藏沟通型、岩浆侵入体-CO_2气储集层接触型和埋藏火山通道-气储集层接触型三种类型。；岩浆侵入体CO_2气运移分为熔融运移阶段和结晶运移阶段，火山通道中CO_2气运移分成近地表喷发阶段和结晶运移阶段。；断裂中，CO_2在水中的浮力远大于运移阻力，CO_2气容易上浮，CO_2在断裂中的易浮性导致不同密度气体的分异和走向上封闭的断裂气体相对富集。；气体在砂岩储集层运移聚集具有选择性，会优先进入孔隙度和渗透率较高的砂岩，随着压力增加，才会进入孔隙度和渗透率较低的砂岩；在岩浆气源体-断裂-储集层空间输导格架下，CO_2气在膨胀力的驱动下，首先进入含水的断裂并重力分异而聚集，气体压力会不断增高，当压力增至一定程度，CO_2气会向高孔隙度、渗透率的储集层运移并聚集。；在岩浆气源体-储集层接触空间输导格架下，CO_2气受膨胀力的驱动直接向储集层运移并聚集。；成藏的CO_2气会经历化学沉淀、溶解、扩散和机械破坏四种破坏方式，会受断裂切割而打破压力平衡，沿断裂进一步运移和聚集成藏。

apparent force：表观力

apparent expansion 视在膨胀 | apparent force 表观力 | apparent moisture 表面水分

obstructive emphysema：阻塞性肺气肿

阻塞性肺气肿(obstructive emphysema)是由多种肺脏疾病尤其是慢性支气管炎引起的细支气管狭窄和不全阻塞,致终末细支气管远端(包括各级呼吸性细支气管、肺泡管、肺泡囊和肺泡)过度充气膨胀、持续性内压增高,从而使气腔壁结构破坏、弹性回缩力减退及肺容积增大的病理状态.

expansible bend：膨胀弯管

expansibility factor 可膨胀性系数 | expansible bend 膨胀弯管 | expansible force 膨胀力

expansible force：膨胀力

expansible bend 膨胀弯管 | expansible force 膨胀力 | expansion admixture 膨胀剂

hydrostat balance：液体静力均衡,水位调节器

吸湿膨胀 hydroscopic swelling | 液体静力均衡,水位调节器 hydrostat balance | 液体静力轴承 hydrostatic bearing

pulmonary macrophage：肺巨噬细胞

表面活性物质密度增加,使表面张力降纸,使肺泡不至呼气而过度塌陷;吸气时肺泡扩张,表面活性物质密度减小,表面张力增大导致回缩力增大,可防止肺泡过度膨胀(图15-15).肺巨噬细胞(pulmonary macrophage)来源于血液中的单核细胞,

sheared：修剪的,剪平的

4,formed 成形的,成形加工 | 5,sheared 修剪的,剪平的 | 6,tension n.张力,膨胀力

Stuart Little：一 家 之 鼠 超 力 仔

多年前的>(Stuart Little)绝对是一个成功的好例子,纵然当时要使用这些技术,成本绝对是十分昂贵,但对于电影市场不断膨胀的美国来说,要收回成本,甚至有盈余,绝对不是困难的事.

swelling ratio：膨胀率

湿化slaking | 膨胀率 swelling ratio | 膨胀力 swelling force

bulging shell：凸出壳板

膨胀力 bulging force | 凸出壳板 bulging shell | 容积,散装 bulk