1.
Taiwan-Luzon arc, which is an arc-continental collision zone, is the south extremity.
冲绳海槽的南端为台湾-吕宋岛弧,为一比较典型的弧-陆碰撞构造带。
2.
Deformation record of the change from Indosinian collision-related tectonic system to Yanshanian subduction-related tectonic system in South China during the Early Mesozoic
华南早中生代从印支期碰撞构造体系向燕山期俯冲构造体系转换的形变记录
3.
TECTONIC EVOLUTION OF THE LATE ARCHEAN WUTAISHAN COLLISION OROGEN
五台山晚太古代碰撞造山带构造演化
4.
Collision between Dream and Soul: Scrutiny of "Dream" Text Structured by Can Xue;
灵与梦的碰撞——残雪构造的“梦”文本审视
5.
The shear zone is a secondary structure zone of the syn-collision stage of Southern Tarim block with Ili-Isaik block.
该剪切带属南侧塔里木与伊犁-伊塞克两陆块碰撞缝合构造同碰撞期的次级构造带。
6.
The Early Precambrian Collisional Orogenic Process and Plate Tectonics: Chance and Challenge of Precambrian Geology
早期碰撞造山过程与板块构造:前寒武纪地质研究的机遇和挑战
7.
VOLCANO-MOLASSE GEOLOGICAL STRUCTURE AND GEOCHEMICAL SIGNATRE IN DEVONIAN PERIOD COLLISION OROGENIC IN BEISHAN,GANSU-INMONGOLIA
北山泥盆纪碰撞造山火山-磨拉石地质构造及地球化学特征
8.
LATE CENOZOIC NEOTECTONICS IN THE DONGSHA ISLANDS REGION AND ITS RESPONDS TO COLLISION BETWEEN CHINESE CONTINENTAL MARGIN AND LUZON
东沙群岛海区晚新生代构造特征及其对弧-陆碰撞的响应
9.
The collision and matching of the Lhase terrane with the Qiangtang terrane have caused the formation of the tectonic framework of Eurasian plate.
拉萨地体与羌塘地体碰撞拼合形成欧亚板块构造格局。
10.
The frequency dispersions of Rayleigh waves and 3-D velocity structures in Himalayan collision orogenic zone and Qiangtang basin
喜马拉雅碰撞造山带和羌塘盆地的瑞雷波频散与三维速度结构
11.
In the plots of tectonic discrimination, they are projected in IAG/ VAG/Syn-COLG regions.
在构造环境判别图中,样品显示岛弧/同碰撞花岗岩的特点。
12.
The Triassic Post-collisional Magmatism for the Southern Lancangjiang Tectonic Zone, Southwestern China: Petrogenesis and Its Tectonic Implications;
澜沧江南带三叠纪碰撞后岩浆作用、岩石成因及其构造意义
13.
Research of Crashworthy Structure Design and Crash Simulation for Locomotive Carbody;
机车车体耐碰撞结构设计与碰撞仿真研究
14.
Crashworthiness Simulation of Frontal Crash for MPV;
商务车正面碰撞结构耐撞性模拟研究
15.
TECTONIC DIVISION OF THE EARLY ROCKS IN THE YINSHAN AREA AND THE PALAEOPROTEROZOIC CRUSTAL COLLISION LATERAL EXTENSION MODEL
阴山地区早前寒武纪岩石构造分区及古元古地壳碰撞一伸展构造机制
16.
Damage to the machine is due to violent bumping before shipment.
机器的损坏是装船前剧烈碰撞造成的。”
17.
IDENTIFICATION OF SOUTHEASTERN FUJIAN MESOZOIC COLLISIONAL OROGENIC BELT
闽东南中生代碰撞造山带的确认证据
18.
Porphyry Cu deposits in collisional orogen setting:A preliminary genetic model
初论碰撞造山环境斑岩铜矿成矿模型