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This paper describes ways of simplifying the equations characterising the equilibrium shape of reflowed solder in the interconnection of TAB (Tape Automated Bonding) and MCR (Moulded Carrier Ring) components with negligible loss in accuracy. A drastic reduction of the numerical effort necessary to calculate the solder volume for fine pitch devices is achieved. The equations are applied to TAB and MCR packages which are hotbar‐soldered to a substrate. The results of these calculations are in good agreement with experimental data.

Based on the research, the authors identify how four key concepts in disaster studies—agency, local scale, memory and vulnerability—are interrupted, and how these interruptions offer new perspectives for doing disaster research from and for the South.

Meta-analysis of case studies and revision of past and current collaborations of authors with communities across Chile.

The findings suggest that agency, local scale, memory and vulnerability, as fundamental concepts for disaster risk reduction (DRR) theory and practice, need to allow for ambivalences, ironies, granularization and further materializations. The authors identify these characteristics as the conditions that emerge when doing disaster research from within the disaster itself, perhaps the critical condition of what is usually known as the South.

The authors contribute to a reflexive assessment of fundamental concepts for critical disaster studies. The authors offer research-based and empirically rich redefinitions of these concepts. The authors also offer a novel understanding of the political and epistemological conditions of the “South” as both a geography and a project.

The purpose of this paper is to describe the conversion of the former coal mining site in Kamp-Lintfort into a public park and learning space for biodiversity. In 2020, an urban green space was established, featuring various aquatic and terrestrial habitats and a high level of biological diversity in the city centre with broad community support.

This study presents secondary data of a literature review on participatory management of biodiversity in urban green spaces, with a focus on the sustainability context, participation approaches, theoretical frameworks and the role of education. The example of Zechenpark Kamp-Lintfort (Germany) shows how urban green space development can meet the challenging demands of inner city development while fostering knowledge generation via citizen science and participatory biodiversity management. The study collected primary data on plant biodiversity using a citizen science approach to raise awareness and create opportunities for human–nature interaction.

Sustainable Development Goal (SDG) 11 is the most important development goal in the context of participatory biodiversity management of urban green spaces. Most of the studies have a place-based focus and integration of local knowledge is the main reason for a participatory approach. The findings show how a green learning space can offer opportunities for digital learning as well as participatory biodiversity management in urban areas. The project lead to an increase in local citizens’ awareness of biodiversity. Based on a literature review, this report identifies challenges and opportunities for establishing a green learning space for biodiversity education. The example illustrates that an urban green space can provide numerous possibilities for citizens and students to get involved and that it can foster the sustainable development of a new urban neighbourhood.

A place-based approach limits generalisability. To overcome this limitation, a literature review was conducted, and the location was compared to two parks with similar site conversion history.

The example of developing an urban green space can inspire universities to take an active role in biodiversity management in urban green spaces, integrating biodiversity into university activities and creating a positive impact in the urban environment.

Analysis of studies in the field shows that education deserves a more prominent role in theoretical frameworks.

The study represents an example of transition and citizen-led participatory management of biodiversity from a medium-sized city, transformation processes covering these aspects are underrepresented in literature.

This paper aims to investigate automatic assembly planning for robot and manual assembly.

The octree decomposition technique is applied to approximate a computer‐aided design model with an octree representation which is then used to generate robot and manual assembly plans. An assembly planning system able to generate assembly plans was developed to build these prototype models.

Octree decomposition is an effective assembly planning tool. Assembly plans can automatically be generated for robot and manual assembly using octree models.

One disadvantage of the octree decomposition technique is that it approximates a part model with cubes instead of using the actual model. This limits its use and applications when complex assemblies must be planned, but in the context of prototyping can allow a rough component to be formed which can later be finished by hand.

Assembly plans can be generated using octree decomposition, however, new algorithms must be developed to overcome its limitations.

This paper has proved that the octree decomposition technique is an effective assembly planning tool. As a result, an assembly planning system has been developed. Assembly plans for automatic and manual assembly can be generated automatically by the proposed system, which is a novelty since there are no fully automatic assembly planning systems for manual assembly reported in the literature.

This study aimed to present fabrication of novel poly(lactic acid) (PLA) mediated chitosan nanoparticles (CNPs) and their impregnation on cotton fabric for enhanced antibacterial and physical properties.

The PLA-CNPs were characterized using scanning electron microscopy, energy dispersive x-ray spectroscopy, Fourier transform infrared (FTIR) spectroscopy and zeta size analysis. The prepared PLA-CNPs were impregnated on cotton fabric via pad-dry-cure method. The finished cotton fabric was then characterized for its antibacterial activity, functional and other physical textile properties.

The spectral and optical properties demonstrate that the NPs expressed spherical morphologies with an average particle diameter of 88.02 nm. The antibacterial activity of treated fabrics ranged between 75 and 90 per cent depending on the concentration of PLA-CNPs.

Because of enhanced awareness and desire for ecofriendly products, the use of sustainable and functional textiles is increasing day by day. For the said purpose, industries are using different chemical treatments to achieve desired end functionality. Currently, different synthetic antibacterial agents are in practice, but they lack sustainable approach to save the environment. In this study, the researchers have developed PLA mediated CNPs for sustainable antibacterial and physical properties of treated cotton fabric.

To the best of the authors’ knowledge, this is first attempt to fabricate PLA-incorporated CNPs for application on cotton fabric followed by a detailed characterization.

With recent advances in additive manufacturing (AM), polymer-based three-dimensional (3D) printers are available for relatively low cost and have found their way even in domestic and educational uses. However, the optimum conditions for processing and post-processing of different materials are yet to be determined. The purpose of this paper is to examine the effects of printing temperature, pattern and annealing conditions on tensile strength and modulus of samples printed with polylactic acid (PLA).

This study focuses on fused deposition modelling according to ISO/ASTM 52900 material extrusion AM. To print parts with maximum mechanical properties, the printing variables must be optimised. To determine the printing and annealing condition on physical and mechanical properties of PLA-based parts, dogbone-shaped tensile samples were printed at four different nozzle temperatures and five different filling patterns embedded in a 3D printing software. The samples were further annealed at three different temperatures for three different time intervals. The mechanical properties were evaluated and the changes in mechanical properties were analysed with the help of rheometrical measurements.

The results showed that printing condition has a significant influence on final properties, for example, the strain at break value increases with increasing nozzle temperature from 34 to 56 MPa, which is close to the value of the injected sample, namely, 65 MPa. While tensile strength increases with printing temperature, the annealing process has negative effects on the mechanical properties of samples.

The authors observed that traditional findings in polymer science, for example, the relationship between processing and annealing temperature, must be re-evaluated when applied in 3D printing because of major differences in processing conditions resulting from the layer-by-layer manufacturing.