Your search keyword '"Gou GQ"' showing total 3 results

1. Effect of heat input on interfacial characterization of the butter joint of hot-rolling CP-Ti/Q235 bimetallic sheets by Laser + CMT.

Author

Zhu ZY, Liu YL, Gou GQ, Gao W, and Chen J

Abstract

Composite structures made of 2 mm-thick titanium and 10 mm-thick carbon steel are widely used in infrastructures such as long-distance gas transportation. However, cracking, which is caused by intermetallic compounds (ICs), is a dominate failure mode in welds of this structure. Thus, a common way to improve the in-service life of is reduce the number of ICs. In this paper, we employ a novel hybrid welding method to fabricate composite structures of TA 2 titanium and Q235 carbon steel. Specifically, Ti and carbon steel is welded by laser and double Cold Metal Transfer (CMT) welding, respectively. The microstructure near the interface of Ti and steel is then examined using SEM, EBSD, EDS, with emphasis on the ICs in terms of chemical elements and morphologies. Results show that FeTi and Fe 2 Ti are the main ICs near the interface, and responsible for the failure of the welds. The effect of welding heat input on the formation of ICs is investigated as well. Results show that ICs are smaller when the heat input is low. Under low heat input circumstance, the tensile strength of the weld can reach up to 420 MPa.

Published

2021

2. Ophiorrhiza guizhouensis (Rubiaceae), a new species from Guizhou Province, southwestern China.

Author

Yang CD, He XZ, and Gou GQ

Abstract

In this study, Ophiorrhiza guizhouensis , a new species of Rubiaceae from south-western China, is described and illustrated. The new species is morphologically similar to O. japonica , but differs from the latter by having terete stems which are densely hirtellous, usually persistent ciliate stipules with well-developed colleters inside the base of the stipule, shorter corolla tubes and shorter stamens and styles.

Published

2018

3. [Effects of temperature on the growth and development of Aglossa dimidiata parasitized on Litsea coreana].

Author

Shang XL, Yang MF, Huang L, and Gou GQ

Subjects

Animals, Culture Techniques, Host-Parasite Interactions, Larva growth & development, Litsea growth & development, Pupa growth & development, Lepidoptera growth & development, Litsea parasitology, Temperature

Abstract

In order to reveal the effects of temperature on the growth and development of Aglossa dimidiata parasitized on Litsea coreana, a laboratory experiment was conducted to study the mean development duration, development rate, and survival rate of A. dimidiata at its different growth stages at 31 degrees C, 28 degrees C, 25 degrees C, 22 degrees C, and 19 degrees C, with the development threshold temperature and effective accumulated temperature for different growth stages calculated. Temperature had significant effects on the developmental duration. Except that the development duration of egg was shortened with increasing temperature, the development durations of larva, pupa, and immature A. dimidiata were the shortest at 25 degrees C, being 249.53 +/- 23.83, 12.94 +/- 1.27, and 273.00 +/- 24.19 days, respectively. There existed significant relationships between the development rates of A. dimidiata at its different growth stages and temperature, with positive linear relationship at egg stage, and quadratic relationship at larva, pupa, and immature stages. Temperature also had significant effects on the survival rate of A. dimidiata. The survival rates of A. dimidiata at its different growth stages were all the highest at 25 degrees C, being 94.0%, 73.8%, 91.3%, and 63.4% for the egg, larva, pupa, and immature A. dimidiata, respectively, followed by at 22 degrees C and 19 degrees C, and the lowest at 31 degrees C. No larva and pupa could survive at 31 degrees C, suggesting that A. dimidiata was not resistant to high temperature. The development threshold temperature for egg, larva, pupa, and immature A. dimidiata was 13.21 degrees C, 17.12 degrees C, 14.76 degrees C, and 16.47 degrees C, and the effective accumulated temperature was 117.94, 870.88, 149.70, and 1442.75 day-degree, respectively. The results coincided with the fact that the A. dimidiata reproduced 2 or 3 generations a year in Xifeng area of Guizhou, Southwest China.

Published

2012