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Firms increasingly diversify their technological competencies to achieve different strategic objectives. This study aims to explore the impacts of technological knowledge characteristics on patenting choices for inventions created by subsidiaries in an uncertain and fast changing environment.

The data used in this study are patents granted to the world largest firms by the USPTO for inventions attributable to their subsidiaries in China between 1996 and 2005. In addition, the patent data from State Intellectual Property Office (SIPO) of China are used for the matching in terms of filing patent applications in both USA and China for a same piece of technology. A discrete Logit model is used to examine the effects of technological distance and categories on Chinese patent application and international priority.

The findings suggest that firms have priority to seek international patent protection, instead of host country protection, for valuable subsidiary inventions in their background and marginal technological fields. In addition, a firm may seek host country legal protection simultaneously for inventions built upon knowledge from technologically distant fields.

As we are more interested in protecting technological knowledge, the protection of other types of knowledge, such as organizational knowledge, deserves further research attentions. Moreover, future research may expand current study by including small and medium firms, as well as firms in other developing economies.

While the economic and legal environment in China may have evolved since studied period, the results have practical implications for firms in other developing countries that are at an early stage of catching-up or those in a host location featuring a similar uncertain and fast changing environment. In particular, the study suggests that foreign firm managers would have more strategic choices of patenting than local firms in the host country. For strategically important inventions bridging complex knowledge from different technological areas, firms could seek protection in multiple countries simultaneously, including both home country and other major markets. Furthermore, managers could choose whether or not to protect a particular category of technologies in host country depending on value of the technology to the firm and the IPR protection of host country. Finally, the approach of looking at knowledge-level characteristics, which can be easily measured through readily available intra-firm information, provides managers with a practical and useful tool to make these strategic decisions.

This study represents an effort to extend the understanding on how foreign MNCs could generate and appropriate valuable technologies in an uncertain and fast-changing environment. In particular, the authors focus on how MNCs could use different international patenting patterns to benefit from subsidiary inventions. Whereas previous literature mainly focuses on country-level and firm-level determinants, this study approaches the topic through the lens of knowledge-level factors. By studying how knowledge characteristics determine firm strategic behaviors, the authors offer additional justifications of the knowledge-based view of the firm. Meanwhile, the findings enrich our understanding of an important component of MNC’s global strategies in managing their technologies through selectively patenting in different locations. Firms pursue diversified technologies for different strategic objectives. As subsidiary inventions become a very important source of firm competitiveness, MNCs have to face the trade-off between higher patenting costs and the appropriability of subsidiary generated knowledge. The findings suggest that it is not necessary for MNCs to protect all subsidiary inventions in host countries.

The purpose of this paper is to investigate the optoelectronic properties of the multichannel ZnO UV photodetectors.

ZnO nanowires were assembled by dielectrophoresis for the UV photodetectors. Different ZnO channels were adjusted by different alternating current voltages and investigated for UV optoelectronic properties.

The number of the ZnO channels increases with the enhancing alternating current voltage. Optimum performance of the UV photodetectors is obtained with more channels.

Dielectrophoresis is a promising method for controllable assembly of multichannel ZnO photodetectors. ZnO photodetectors with more channels demonstrate a good response to 380-nm UV light, which shows great potential application in UV photodetector.

The purpose of this paper is to arrange zinc oxide (ZnO) nanowires into an appropriate position on electrodes and to research the properties of ZnO nanowires.

In this paper, dielectrophoresis (DEP) was used to fabricate ZnO nanowire devices, and the responses to temperature, ultraviolet (UV) light and breath of the device were studied.

The number of the bridged nanowires is increased with alternating current voltage. ZnO nanowires demonstrate a good photoconductivity illuminated by 365-nm UV light, and show a stable performance in monitoring unnatural breath of high frequency and low strength.

In this paper, DEP is a promising method for controllable assembly of ZnO nanowires. ZnO nanowires demonstrate a good response to 365-nm UV light and exhaled breath, which show great potential application in UV detector and medical monitor.

This paper aims to investigate the sealing characteristic of the rubber X-ring combined seal used in high-pressure hydrogen service and clarify the effect of swelling due to dissolved hydrogen on the sealing behavior.

A finite element analysis method with a user subroutine is proposed to investigate the sealing characteristic of rubber X-ring seals in conjunction with the swelling effect.

The swelling has a noticeable impact on the sealing behavior. The higher peak contact stress suggests that the X-ring seal may be superior to the O-ring seal, while the calculated increase in Mises stress suggests the X-ring exhibits a higher propensity to mechanical damage under low pressure conditions.

This paper describes a method with a user subroutine developed within ABAQUS to simulate the sealing performance coupled hydrogen swelling. The suitability of X-ring seals is evaluated. This work provides insight into the swelling effect on sealing behavior of an X-ring, which is of great value for the design and application of rubber seals used in hydrogen service.

Granular materials possess multiscale structures, i.e. micro-scales involving atoms and molecules in a solid particle, meso-scales involving individual particles and their correlated structure, and macroscopic assembly. Strong and abundant dissipations are exhibited due to mesoscopic unsteady motion of individual grains, and evolution of underlying structures (e.g. force chains, vortex, etc.), which defines the key differences between granular materials and ordinary objects. The purpose of this paper is to introduce the major studies have been conducted in recent two decades.

The main properties at individual scale are introduced, including the coordination number, pair-correlation function, force and mean stress distribution functions, and the dynamic correlation function. The relationship between meso- and macro-scales is analyzed, such as between contact force and stress, the elastic modulus, and bulk friction in granular flows. At macroscales, conventional engineering models (i.e. elasto-plastic and hypo-plastic ones) are introduced. In particular, the so-called granular hydrodynamics theory, derived from thermodynamics principles, is explained.

On the basis of recent study the authors conducted, the multiscales (both spatial and temporal) in granular materials are first explained, and a multiscale framework is presented for the mechanics of granular materials.

It would provide a paramount view on the multiscale studies of granular materials.

This study aims to clarify the mechanism of film hole location at the span-wise direction of an internal cooling channel with crescent ribs on the adiabatic film cooling performance, three configurations are designed to observe the effects of the distance between the center of the ellipse and the side wall(Case 1, l = w/2, Case 2, l = w/3 and for Case 3, l = w/4).

Numerical simulations are conducted under two blowing ratios (i.e. 0.5 and 1) and a fixed cross-flow Reynolds number (Re_c = 100,000) with a verified turbulence model.

It is shown that at low blowing ratio, reducing the distance increases the film cooling effectiveness but keeps the trend of the effectiveness unchanged, while at high blowing ratio, the characteristic is a little bit different in the range of 0 = x/D = 10.

These features could be explained by the fact that shrinking the distance between the hole and side wall induces a much smaller reserved region and vortex downstream the ribs and a lower resistance for cooling air entering the film hole. Furthermore, the spiral flow inside the hole is impaired.

As a result, the kidney-shaped vortices originating from the jet flow are weakened, and the target surface can be well covered, resulting in an enhancement of the adiabatic film cooling performance.

This paper aims to explore the psychological mechanism in the relationship between paternalistic leadership (PL) and employee well-being (EWB) in cross-cultural nonprofit organizations. It also aims to further promote the integration of research on PL and self-concept by examining the relationship between PL and collective self-concept (CSC).

Data were collected on 72 supervisors and 233 expatriate Chinese teachers from 42 Confucius Institutes and 15 Confucius classrooms in Canada and the USA.

PL has a significant effect on EWB. Benevolent and moral leadership are positively related to CSC, while authoritarian leadership is negatively related to CSC. CSC mediates the relationship between PL and EWB. Furthermore, employees’ cross-cultural adaptability positively moderates the relationship between CSC and EWB; the indirect effect between PL and EWB via CSC is stronger for employees with stronger cross-cultural adaptability.

This is the first study that has examined the psychological mechanism under which PL affects EWB in cross-cultural nonprofit organizations. It contributes to the integration of research on PL and CSC by examining its relationship for the first time. It provides important implications for improving the well-being of expatriate employees in cross-cultural organizations.

This paper aims to develop a new method of fuselage drag optimization that can obtain results faster than the conventional methods based on full computational fluid dynamics (CFD) calculations and can be used to improve the efficiency of preliminary design.

An efficient method for helicopter fuselage shape optimization based on surrogate-based optimization is presented. Two numerical simulation methods are applied in different stages of optimization according to their relative advantages. The fast panel method is used to calculate the sample data to save calculation time for a large number of sample points. The initial solution is obtained by combining the Kriging surrogate model and the multi-island genetic algorithm. Then, the accuracy of the solution is determined by using the infill criteria based on CFD corrections. A parametric model of the fuselage is established by several characteristic sections and guiding curves.

It is demonstrated that this method can greatly reduce the calculation time while ensuring a high accuracy in the XH-59A helicopter example. The drag coefficient of the optimized fuselage is reduced by 13.3%. Because of the use of different calculation methods for samples, this novel method reduces the total calculation time by almost fourfold compared with full CFD calculations.

To the best of the authors’ knowledge, this is the first study to provide a novel method of fuselage drag optimization by combining different numerical simulation methods. Some suggestions on fuselage shape optimization are given for the XH-59A example.

This paper aims to study both the mechanical properties and the corrosion behavior of the synthesized in situ (TiC-TiB₂) particulates/AZ91 magnesium matrix composite and compare the results with that of the conventional AZ91D alloy.

Scanning electron microscope (SEM) equipped with energy dispersive X-ray spectroscopy (EDS) and X-ray diffraction (XRD) were used to study the surface morphology and crystalline structure. Mechanical compression tests were used to investigate the mechanical performance according to ASTM E9-89a. The corrosion behavior of the synthesized magnesium alloy was examined using both electrochemical impedance spectroscopy (EIS) and potentiodynamic polarization techniques in dilute Harrison solutions.

The microstructure of the Mg composite showed a uniform distribution of reinforcing phases. Also, the reinforcing phases were formed without residual intermediate phases. The addition of titanium and boron carbides not only enhanced the mechanical properties of the matrix but also improve its corrosion behavior.

This is the first time that magnesium matrix composite has been to synthesized with TiC and TiB₂ particulates starting from starting from Ti and B carbides powder without adding aluminium using practical and low-cost technique (in situ reactive infiltration technique). This paper studies the corrosion behavior of synthesized Mg matrix in dilute Harrison solution and compares the results with that of conventional AZ91D.