Search results
1 – 10 of over 5000Zhen-Yu Zhao, Xiao-Jing Zhao, Jian Zuo and George Zillante
Corporate social responsibility (CSR) practice and research regarding construction contractors are comparatively limited. The purpose of this research is to identify a series of…
Abstract
Purpose
Corporate social responsibility (CSR) practice and research regarding construction contractors are comparatively limited. The purpose of this research is to identify a series of CSR issues that reflect the major components of CSR, and to determine the perceived importance of these factors in the context of construction contractors.
Design/methodology/approach
A CSR indicator framework was developed based on stakeholder theory. CSR stakeholders and their corresponding CSR performance issues in construction contractors are classified into two levels, i.e. project level and organizational level. This is followed by a questionnaire survey to investigate the perceptions on relative importance of CSR issues of four key stakeholders in typical construction projects in China, i.e. construction contractors, clients, design and engineering consultancy and supervision firms.
Findings
The study highlighted a number of factors, e.g. “quality and safety of construction”, “occupational health and safety” and “supplier/partner relationship” were highly regarded; however, their relative importance varied according to the type of responding organization.
Research limitations/implications
The findings indicated the major concerns of the different parties in construction projects, thereby providing a pathway for construction contractors to improve their CSR practice.
Originality/value
The priorities of various stakeholders described in this paper provide a useful reference for construction contractors in the selection and adoption of criteria for CSR performance. A better understanding of perceived priorities of CSR factors from different participating parties also serves useful inputs to construction contractors in their stakeholder management process.
Details
Keywords
Tifanny Dwijaya Hendratama and Yu-Chuan Huang
This study extends related research on corporate social responsibility (CSR) into the less-researched realm of Southeast Asia setting by investigating the role of life cycle…
Abstract
Purpose
This study extends related research on corporate social responsibility (CSR) into the less-researched realm of Southeast Asia setting by investigating the role of life cycle stages on the relationship between CSR and firm value.
Design/methodology/approach
This study uses a sample of 1,247 firm-year observations of firms listed in Southeast Asia from 2012 to 2018. Descriptive, multiple regression and sensitivity analyses are presented in the study.
Findings
The results provide evidence that although CSR and firm value, in general, have a positive relationship, the relationship is contingent on the stages of firm's life cycle. The effect of each CSR dimension on firm value differs across life cycle stages. The social dimension of CSR predicts higher firm value at the introduction and mature stages. The governance dimension affects firm value at the growth and shake-out/decline stages. Moreover, the environmental dimension affects firm value only at the later stage of the life cycle.
Research limitations/implications
This study is limited to five countries in Southeast Asia, namely Indonesia, Malaysia, Philippines, Singapore and Thailand from 2012 to 2018. Future studies may explore other countries and investigate the impact of country classification on the relationship between CSR and firm value.
Practical implications
Policymakers, managers and other decision-makers may have a better understanding of firm's behavior in different life cycle stages. With such understanding, CSR will be successfully adopted in decision making, formulation and implementation of policies.
Originality/value
CSR-related research in Southeast Asia remains an under-studied domain, and little attention has been dedicated to different dimensions of CSR and life cycle in the area of CSR-related preference for decision making.
Details
Keywords
Xiao Fan Zhao, Andreas Wimmer and Michael F. Zaeh
The purpose of this paper is to demonstrate the impact of the welding sequence on the substrate plate distortion during the wire and arc additive manufacturing (WAAM) process…
Abstract
Purpose
The purpose of this paper is to demonstrate the impact of the welding sequence on the substrate plate distortion during the wire and arc additive manufacturing (WAAM) process. This paper also aims to show the capability of finite element simulations in the prediction of those thermally induced distortions.
Design/methodology/approach
An experiment was conducted in which solid aluminum blocks were manufactured using two different welding sequences. The distortion of the substrates was measured at predefined positions and converted into bending and torsion values. Subsequently, a weakly coupled thermo-mechanical finite element model was created using the Abaqus simulation software. The model was calibrated and validated with data gathered from the experiments.
Findings
The results of this paper showed that the welding sequence of a part significantly affects the formation of thermally induced distortions of the final part. The calibrated simulation model was able to capture the different distortion behavior attributed to the welding sequences.
Originality/value
Within this work, a simulation model was developed capable of predicting the distortion of WAAM parts in advance. The findings of this paper can be used to improve the design of WAAM welding sequences while avoiding high experimental efforts.
Details
Keywords
Hong Men, Bin Sun, Xiao Zhao, Xiujie Li, Jingjing Liu and Zhiming Xu
The purpose of this study is to analyze the corrosion behavior of 304SS in three kinds of solution, 3.5 per cent NaCl, 5 per cent H2SO4 and 1 M (1 mol/L) NaOH, using…
Abstract
Purpose
The purpose of this study is to analyze the corrosion behavior of 304SS in three kinds of solution, 3.5 per cent NaCl, 5 per cent H2SO4 and 1 M (1 mol/L) NaOH, using electrochemical noise.
Design/methodology/approach
Corrosion types and rates were characterized by spectrum and time-domain analysis. EN signals were evaluated using a novel method of phase space reconstruction and chaos theory. To evaluate the chaotic characteristics of corrosion systems, the delay time was obtained by the mutual information method and the embedding dimension was obtained by the average false neighbors method.
Findings
The varying degrees of chaos in the corrosion systems were indicated by positive largest Lyapunov exponents of the electrochemical potential noise.
Originality/value
The change of correlation dimension in three kinds of solution demonstrated significant differences, clearly differentiating various types of corrosion.
Details
Keywords
Ming-Yang Li, Xiao-Jie Zhao, Lei Zhang, Xin Ye and Bo Li
In recent years, the updating speed of products has been significantly accelerated, which not only provides diversified styles for consumers to select from but also makes…
Abstract
Purpose
In recent years, the updating speed of products has been significantly accelerated, which not only provides diversified styles for consumers to select from but also makes consumers face selection problems sometimes. In addition, a large number of online reviews for products emerge on many e-commerce websites and influence consumers’ purchasing decisions. The purpose of this study is to propose a method for product selection considering consumer’s expectations and online reviews to support consumers’ purchasing decisions.
Design/methodology/approach
The product attributes are divided into two categories, i.e. demand attributes and word-of-mouth (WOM) attributes. For the demand attributes, for which the consumers can give specific quantified expectations, the value function of prospect theory is used to determine the consumer’s perceived values to the alternative products according to consumers’ expectations for these attributes and products’ specifications. For the WOM attributes, for which the consumers cannot give specific quantified expectations, the sentiment analysis method is used to identify the sentiment strengths for these attributes in the online reviews, and then the consumer’s perceived values to the alternative products are determined. On this basis, the product selection methods for single consumers and group consumers are given respectively.
Findings
Finally, taking the data of JD.com (https://www.jd.com/) as an example, the practicability and rationality of the method proposed in this paper is validated.
Originality/value
First, a new product selection problem considering consumer’s expectations and online reviews is extracted. Second, the product attributes are considered more comprehensively and are classified into two main categories. Third, the bounded rationality of the consumers in the decision-making process is described more reasonably. Fourth, the sentiment dictionaries for each WOM attribute are constructed and the algorithm step of identifying the sentiment strengths is designed, which can help to identify the sentiment strengths in the online reviews more accurately. Fifth, the situation that a group plans to purchase the same products and the members have inconsistent expectations for the product attributes is considered.
Details
Keywords
Xiao-Shun Zhao, Li Yu, Xue Yang and Si-Yu Zhang
The purpose of this study was to develop a new folding method for modeling complicated folded fabric with surfaces of revolution.
Abstract
Purpose
The purpose of this study was to develop a new folding method for modeling complicated folded fabric with surfaces of revolution.
Design/methodology/approach
Irregular wrinkles and mesh distortions easily appear in the fold modeling of a complex curved surface. Aimed at this key technical problem, the segmentation mapping folding method (SMFM) is proposed in this paper. First, high-precision flattened planes were obtained by using segmentation mapping techniques. Second, the segmented planes were transformed into a folded and continuous geometric model by using matrix transformations. Finally, initial stress was used to modify the geometric folding errors, which ensured agreement with the inflated flexible fabric’s geometry and the original design.
Findings
Compared with the traditional folding method, SMFM has the advantages of good finite-element mesh quality, large radial compression rate, regular folds, etc. The surface area error and the volume error of the inflated single torus established by SMFM were only 1.2 per cent, showing that SMFM has high modeling accuracy. The numerical results of an inflatable re-entry vehicle are presented to demonstrate the reliability, feasibility and applicability of SMFM. Moreover, the stress modification reduced the problems of stress concentration and mesh distortions, improving the accuracy and stability of the numerical calculations.
Originality/value
In this paper, for the first time, a folding method for modeling complicated folded fabric is proposed. This methodology can be used to model the multidimensional compression and regular folds of complex surfaces of revolution that cannot be flattened and to improve the accuracy and stability of the numerical calculations.
Details
Keywords
Xue Yang, Li Yu and Xiao-Shun Zhao
The purpose of this paper is to find optimal reef parameters to minimize the maximum instantaneous opening load for a reefed parachute with geometry and environmental parameters…
Abstract
Purpose
The purpose of this paper is to find optimal reef parameters to minimize the maximum instantaneous opening load for a reefed parachute with geometry and environmental parameters given in the model.
Design/methodology/approach
The dynamic model Drop Test Vehicle Simulation (DTVSim) is used to model the inflation and descent of the reefed parachute system. It is solved by the fourth-order Runge–Kutta method, and the opening load values are thereby obtained. A parallel genetic algorithm (GA) code is developed to optimize the reefed parachute. A penalty scheme is used to have the maximum dynamic pressure restricted within a certain range.
Findings
The simulation results from DTVSim fit well with experimental data from drop tests, showing that the simulator has high accuracy. The one-stage and two-stage reefed parachute systems are optimized by GA and their maximum opening loads are decreased by 43 and 25 per cent, respectively. With the optimal reef parameters, two of the peaks in the opening load curve are almost equal. The velocity, loiter time and flight path angle of the parachute system all change, but these changes have no negative effect on the parachute’s operational performance.
Originality/value
An optimization method for reefed parachute design is proposed for the first time. This methodology can be used in the preliminary design phase for a reefed parachute system and significantly improve design efficiency.
Details
Keywords
Xue Yang, Li Yu and Xiao-Shun Zhao
The purpose of this study is to model the dynamic characteristics of an opened supersonic disk-gap-band parachute.
Abstract
Purpose
The purpose of this study is to model the dynamic characteristics of an opened supersonic disk-gap-band parachute.
Design/methodology/approach
A fluid-structure interaction (FSI) method with body-fitted mesh is used to simulate the supersonic parachute. The compressible flow is modeled using large-eddy simulation (LES). A contact algorithm based on the penalty function with a virtual contact domain is proposed to solve the negative volume problem of the body-fitted mesh. Automatic unstructured mesh generation and automatic mesh moving schemes are used to handle complex deformations of the canopy.
Findings
The opened disk-gap-band parachute is simulated using Mach 2.0, and the simulation results fit well with the wind tunnel test data. It is found that the LES model can successfully predict large-scale turbulent vortex in the flow. This study also demonstrates the capability of the present FSI method as a tool to predict shock oscillation and breathing phenomenon of the canopy.
Originality/value
The contact algorithm based on the penalty function with a virtual contact domain is proposed for the first time. This methodology can be used to solve the negative volume problem of the dynamic mesh in the flow field.
Details
Keywords
Srinivas Rao Sriram, Saidireddy Parne, Venkata Satya Chidambara Swamy Vaddadi, Damodar Edla, Nagaraju P., Raji Reddy Avala, Vijayakumar Yelsani and Uday Bhasker Sontu
This paper aims to focus on the basic principle of WO3 gas sensors to achieve high gas-sensing performance with good stability and repeatability. Metal oxide-based gas sensors are…
Abstract
Purpose
This paper aims to focus on the basic principle of WO3 gas sensors to achieve high gas-sensing performance with good stability and repeatability. Metal oxide-based gas sensors are widely used for monitoring toxic gas leakages in the environment, industries and households. For better livelihood and a healthy environment, it is extremely helpful to have sensors with higher accuracy and improved sensing features.
Design/methodology/approach
In the present review, the authors focus on recent synthesis methods of WO3-based gas sensors to enhance sensing features towards toxic gases.
Findings
This work has proved that the synthesis method led to provide different morphologies of nanostructured WO3-based material in turn to improve gas sensing performance along with its sensing mechanism.
Originality/value
In this work, the authors reviewed challenges and possibilities associated with the nanostructured WO3-based gas sensors to trace toxic gases such as ammonia, H2S and NO2 for future research.
Details
Keywords
Ayşegül Gürsoy and Gökçe Sinem Erbuğa
Introduction: The global financial crisis has affected the financial markets and has had social consequences in addition to economic ones. The concept of ‘sustainability’ concerns…
Abstract
Introduction: The global financial crisis has affected the financial markets and has had social consequences in addition to economic ones. The concept of ‘sustainability’ concerns firms reaching their main corporate goals. So, to maximise corporate financial performance (FINP), firms pay attention to non-financial data, such as elements of governance, social, and environmental concerns (henceforth referred to as ESG). Therefore, non-financial information provided by EGS factors measured by the ESG score has a crucial role in incorporating strategy and firm performance.
Purpose: This chapter looks at how ESG scores affect the performance of firms. The term ‘ESG’ describes how corporate operations include ESG principles. The ESG score is a novel way to gauge a company’s sustainability.
Methodology: ESG practices are a current phenomenon that has taken the attention of researchers in the last decades. Besides the amount of research conducted, researchers still need consensus regarding its impact. This chapter implements a systematic literature review to compile the research on ESG performance (ESGP) and how it affects business performance.
Findings: Businesses can incorporate sustainability practices into their operations with the help of ESG reports. ESG reports and scores provide non-financial information, which is crucial for businesses to achieve sustainability in their activities and attract more investors. The chapter contributes to the literature by creating value through a comprehensive and theoretical literature review.
Details