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1 – 10 of 192Yunsong Shi, Wei Zhu, Chunze Yan, Jinsong Yang and Zhidao Xia
This study aims to report the preparation, selective laser sintering (SLS) processing and properties of a new nylon elastomer powder. The effects of solvent, dissolution…
Abstract
Purpose
This study aims to report the preparation, selective laser sintering (SLS) processing and properties of a new nylon elastomer powder. The effects of solvent, dissolution temperature and time and cooling method and speed on the particle size and morphologies of the prepared nylon elastomer powder are investigated.
Design/methodology/approach
The prepared nylon elastomer power possesses the particle size of around 50 mm and is spherical in shape, indicating that this study provides the feasible dissolution-precipitation process, a distillation cooling method and a suitable solvent to prepare nylon elastomer powders.
Findings
Compared to pure nylon 12, the nylon elastomer has a lower part bed temperature and a wider sintering window for the SLS process. The wider sintering window indicates the better SLS processibility. The lower part bed temperature is beneficial to the recycling of material and the decrease in the requirement of SLS equipment.
Originality/value
The nylon elastomer in this study has a lower part bed temperature and a wider sintering window for the SLS process. The wider sintering window indicates better SLS processibility. The lower part bed temperature is beneficial to the recycling of material and the decrease in the requirement of SLS equipment.
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M. Grujicic, V. Sellappan, G. Arakere, J.M. Ochterbeck, Norbert Seyr, Andreas Obieglo, Marc Erdmann and Jochen Holzleitner
The purpose of this paper is to propose and analyse computationally a new concept for mechanical interlocking between metal and plastics. The approach utilizes some of the ideas…
Abstract
Purpose
The purpose of this paper is to propose and analyse computationally a new concept for mechanical interlocking between metal and plastics. The approach utilizes some of the ideas used in the spot‐clinching joining process and is appropriately named “clinch‐lock polymer metal hybrid (PMH) technology.”
Design/methodology/approach
A new approach, the so‐called “direct‐adhesion” PMH technology, is recently proposed Grujicic et al. to help meet the needs of automotive original equipment manufacturers and their suppliers for a cost‐effective, robust, reliable PMH technology which can be used for the manufacturing of load‐bearing body‐in‐white (BIW) components and which is compatible with the current BIW manufacturing‐process chain. Within this approach, the necessary level of polymer‐to‐metal mechanical interconnectivity is attained through direct adhesion and mechanical interlocking.
Findings
In an attempt to fully assess the potential of the clinch‐lock approach for providing the required level of metal/polymer mechanical interlocking, a set of finite‐element based sheet‐metal forming, injection molding and structural mechanics analyses is carried out. The results obtained show that stiffness and buckling resistance levels can be attained which are comparable with those observed in the competing injection over‐molding PMH process but with an ∼3 percent lower weight (of the polymer subcomponent) and without the need for holes and for over‐molding of the free edges of the metal stamping.
Originality/value
The paper presents a useful discussion of clinch‐lock joining technology's potential for fabrication of PMH load‐bearing BIW components.
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Since 1917 there has been much research to find means of eliminating or reducing the harmful influence of corrosion on fatigue behaviour. The solution, in principle, is to prevent…
Abstract
Since 1917 there has been much research to find means of eliminating or reducing the harmful influence of corrosion on fatigue behaviour. The solution, in principle, is to prevent the corrosive attack on the metal surface and thus achieve something like the air fatigue strength. The studies reported here help to counter‐balance the much greater number of investigations involving various metallic types of protective coatings. They were initiated to provide information on the possibilities of using organic coatings to protect coil springs.
Preeti Singh, Sven Saengerlaub, Ali Abas Wani and Horst‐Christian Langowski
The purpose of this paper is to review the new trends in plastic additives, with special focus on developments in food packaging materials.
Abstract
Purpose
The purpose of this paper is to review the new trends in plastic additives, with special focus on developments in food packaging materials.
Design/methodology/approach
Phenomenological research has brought awareness and increased insight into the role of various plastic additives on the packaging of foods. The approach is based on the current trends and the industrial protocols for the additives used in plastic polymer processing for the development of food packaging materials.
Findings
Packaging of foodstuffs is a dynamic process which continually responds to the changes in supply and demand which are the result of adaptations to the varying demands of the consumer, changes in retail practices, technological innovations, new materials and developments in legislation, especially, with respect to environmental concerns. A wide range of additives is available for enhancing the performance and appearance of food packaging, as well as improving the processing of the compound. Polymer additives are important areas of innovation for packaging materials.
Originality/value
The paper reviews and summarizes the recent developments in the functionality of different additives, along with their advantages and disadvantages, currently being used to enhance the properties of food packaging materials that can positively influence the environment within the packaging for the increased demand for raw or processed foods.
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Fabienne Touchard, Damien Marchand, Laurence Chocinski-Arnault, Teddy Fournier and Christophe Magro
Additive manufacturing is a recent technology used in the production of composite materials. The use of continuous fibres as reinforcement is necessary to achieve high mechanical…
Abstract
Purpose
Additive manufacturing is a recent technology used in the production of composite materials. The use of continuous fibres as reinforcement is necessary to achieve high mechanical performance. However, making these materials more environmentally friendly is still challenging. The purpose of this study was to investigate the feasibility of 3D printing a composite made of continuous regenerated cellulose fibres using a standard 3D printer generally used for printing polymers.
Design/methodology/approach
The production process was based on a pre-impregnated filament made from a tape containing continuous cellulose fibres and Pebax® matrix. 3D printed composite samples were fabricated using fused deposition modelling. The tape, filament and 3D printed composites were first analysed by means of modulated differential scanning calorimetry and micrography. Tensile tests were then performed, and the mechanical characteristics were determined at each step of the production process. Fracture surfaces were investigated by field-emission gun–scanning electron microscopy.
Findings
Results showed that the mechanical behaviour of the material was maintained throughout the production process, and the 3D printed biocomposites had a stiffness equivalent to that of traditionally manufactured continuous cellulose fibre composites. The obtained 3D printed composites showed an increase in strength value by a factor of 4 and in tensile modulus by a factor of 20 compared to those of unreinforced Pebax® polymer.
Originality/value
This paper demonstrates the feasibility of 3D printing composites based on continuous cellulose fibres, paving the way for new biocomposites made by additive manufacturing.
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Rhys J. Williams, Luke Fox and Candice Majewski
This study aims to demonstrate for the first time that the cheap, commodity polymer, poly(propylene), can be successfully processed using high speed sintering, and that it can be…
Abstract
Purpose
This study aims to demonstrate for the first time that the cheap, commodity polymer, poly(propylene), can be successfully processed using high speed sintering, and that it can be recycled several times through the process, with little to no detriment to either the polymer itself or the parts obtained. This is significant as a step towards the realisation of high speed sintering as a technology for high-volume manufacturing.
Design/methodology/approach
A poly(propylene) powder designed for laser sintering was used to build parts on a high speed sintering machine. The unsintered powder was then collected and reused. Repeating this process allowed creation of seven generations of aged powder. A variety of characterisation techniques were then used to measure polymer, powder and part properties for each generation to discern any effects arising from ageing in the machine.
Findings
It was found that poly(propylene) could be used successfully in high speed sintering, albeit with a low build success rate. Increased powder age was found to correlate to an increase in the build success rate, changes in microscopic and bulk powder properties and improvement to the dimensional accuracy of the parts obtained. By contrast, no discernible correlations were seen between powder age and polymer molecular weight, or between powder age and the tensile properties of parts.
Originality/value
This is the first report of the use of poly(propylene) in high speed sintering. It is also first study regarding powder recyclability in high speed sintering, both in general and using poly(propylene) specifically.
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The above Congress, being held at the Imperial College of Science and Technology, London, from April 10–15, has been described as likely to be the corrosion event of the decade…
Abstract
The above Congress, being held at the Imperial College of Science and Technology, London, from April 10–15, has been described as likely to be the corrosion event of the decade. Size alone is no criterion, though over 80 papers are being presented, but the standing of many of the corrosionists associated with the Congress is, perhaps, the best indication of the truth of this statement. Summaries and abstracts of some of the papers appear in the following pages. More will be published in next month's issue.
Paul Glovinsky and Erik Zavrel
The authors’ innovation is specially constructed sleepwear – which the authors have dubbed “Janus Sleepwear” – for the treatment of sleep disturbance caused by thermal…
Abstract
Purpose
The authors’ innovation is specially constructed sleepwear – which the authors have dubbed “Janus Sleepwear” – for the treatment of sleep disturbance caused by thermal dysregulation, a problem most often seen in women. The authors have designed and tested a simple and comfortable garment with lateralized thermal properties that promotes either thermal conduction or thermal insulation depending upon body position. This innovation will allow sleepers to auto-regulate proximal skin temperature through subtle movements during brief transient arousals, preserving overall sleep architecture. The paper aims to discuss this issue.
Design/methodology/approach
The authors have constructed several prototypes of sleepwear with lateralized thermal properties and conducted small-scale piloting of the garment. Volunteers wore the special sleepwear while awake and performed a series of controlled body position changes. Temperature at several proximal anatomical sites was monitored using temperature sensors known as iButtons.
Findings
Janus Sleepwear can facilitate more rapid cooling, compared to control sleepwear, when the conductive side faces the ambient environment and can maintain temperature with less loss of heat when the insulating side faces the ambient environment.
Originality/value
Thermoregulation plays a key role in promoting and maintaining sleep. Thermal dysregulation and sleep disturbance most commonly occur in women. Sensitivity to ambient temperature stressors suggests it may prove beneficial for such women to maintain as narrow a temperature range as possible during sleep. A person wearing Janus Sleepwear will be able to effectively “steer” her body in response to subjective and subconscious perceptions of thermal discomfort to maintain optimal conditions while asleep.
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Allied Colloids have introduced a vinyl‐based resin, Alcolec 532, for the formulation of flexographic printing inks and paper lacquers. It is offered in bead form, which assists…
Abstract
Allied Colloids have introduced a vinyl‐based resin, Alcolec 532, for the formulation of flexographic printing inks and paper lacquers. It is offered in bead form, which assists in maintaining a high degree of purity during manufacture and facilitates handling.