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Microfiber is one of the major sources of microplastic emission into the environment. In recent times, research on microfiber has gained momentum, and research across different disciplines was performed. However, no complete study was performed from the viewpoint of textiles to analyse the microfiber shedding behaviour by relating the properties textiles. The purpose of this paper is to analyse the microfiber shedding behaviour in textiles.

Articles on the microfiber shedding across different disciplines were collected and analysed systematically to identify the influencing factor. The influence of laundry parameters is found to be majorly discussed section, yet very few research data is found on the effect of yarn and fabric properties on the microfiber shedding.

Most of the articles listed laundry detergent addition, higher temperature, use of softeners, type of washing machines used and amount of liquid used as the major factors influencing the fiber shedding. Concerning the fiber and yarn characteristics, yarn twist, fiber type (staple/filament), method of production, fabric structure and specific density are reported as influencing factors. Some articles highlighted the influence of ageing of textiles on the fiber shedding.

The review identified the research gap in the textile sector and reports that so far, no research performed on microfiber shedding with the textile parameters. The review further urges the importance of research works to be performed in the textile by considering the fabric and yarn properties.

This paper aims to extend a widely used stochastic model of purchase loyalty to include covariates such as demographics, psychographics and geodemographics. Potentially, this allows covariates to explain variations in brand performance measures (BPMs) such as penetration/reach, average purchase frequency, sole buying, share of category requirements, repeat purchase and so forth. The result is to integrate consumer-based segmentation into previously unsegmented stochastic models of brand performance.

This paper describes a model for predicting BPMs. Covariates are then introduced into the model, with discussion of model specification, model estimation, overall model assessment, and the derivation of generalised theoretical BPMs. The outcome is a practical procedure for behavioural loyalty segmentation.

The implications for strategy and management in applying covariates to the BPMs are considerable. Where there are concentrations of consumers with high repeated purchase/consumption, then many aspects of the marketing mix will be affected. An investigation of the role of covariates in understanding BPMs in the laundry detergent market is presented as an example, and ways for market analysts to display results are demonstrated.

Despite the fact that BPMs are the best operationalisation of behavioural loyalty, until now there has not been a model to evaluate the impact of consumer characteristics as covariates on these BPMs. This paper's original contribution includes a model that fits covariates to the BPMs. New statistical and graphical methods are described. Computer software for fitting the model and generating the output is available from the authors.

The purpose of this paper is to examine the influence of ageing and the use of fabric softener during the life cycle of knitted fabrics.

The low‐stress mechanical properties were evaluated by means of the Kawabata evaluation system for fabric (KES‐F) and universal surface tester (UST) revealing that the tensile, shear, bending, compression and surface properties were altered by both ageing during the wash cycles and the use of fabric softener.

Machine laundering leaves fabrics with an uncomfortable hand due to the removal of finishes and the harsh mechanical action of laundering, and results in the change in mechanical properties of the fabrics.

The paper identifies the critical mechanical parameters which are influenced by ageing and the use of fabric softeners during life cycle of garments.

A widely held assumption is that brands purchased by the family will continue to be purchased by the children when they become adults. However, little consumer research actually exists on continued parental influence on young adults’ purchasing decisions. Using data from two surveys of over 500 students in a four‐year undergraduate business program, two studies examined parental influence (the degree to which brands purchased by students corresponded to brands purchased by parents), roommate influence, and additional factors such as price perceptions, brand differences, and brand comparisons. Discrete choice regression analyses (ordered probit) in both surveys revealed that correspondence with parental brand choice decreased significantly with year in university. As parental influence lessened, brand choice correspondence with roommates increased. The reduction in parental influence may indicate an important marketing opportunity. When a student leaves home, their brand loyalties shift significantly from that of the family unit.

The purpose of this paper is to investigate the suitability of linen in garments for atopic dermatitis (AD) wearers.

In total, 60 garments were tested with four boys (five to eight years old): two with AD and two healthy kids using circular knitting occlusive structure (OS) 28-gauge and non-occlusive structure (NOS) 12-gauge with cotton, polyester staple and linen yarns. Air and water vapor permeability fabric results were analyzed using ANOVA method and occlusive levels correlated with thickness and UPF rates. Skin irritation levels were evaluated with Patient-Oriented SCORing Atopic Dermatitis (PO-SCORAD) self-assessment tool and for body temperature measurements infrared cameras were used. The authors standardized hygiene products; laundry procedures and soaps were previously identified and measured for their pH and skin irritation history with wearers.

Lower skinbody temperature (−2.6°C-−2.8°C) and PO-SCORAD values (16.1-22.8) during use by AD volunteers suggest promoting both wear tolerance (WT) and NOS preference. Air permeability of 3,222 l/m²s with NOS knitted linen as at least 48 percent higher than tested fibers indicating AD volunteers preference during hot climate (24°C to 37°C and 54 to 69 percent RH). Control healthy volunteers were less sensitive to NOS (−1.3°C-−1.6°C) and hot feeling polyester was detected in use. UPF confirms open loops of NOS (NOS UPF 10-5 vs OS UPF 25-15). Thickness (0.6 to 1.0 mm) and RET values (3.1-3.8) were both without significance for this study.

Due to the experimental character of this study with a reduced group of two AD volunteers, wear test conclusion is limited to these specific boys. Work extension aiming at broad AD wears statistics significance should consider more volunteers.

The study provides specific answers to opening new possibilities for AD wear other than cotton or polyester, both fibers with more availability in the Brazilian garments retail industry that sometimes did not meet their routine needs. This study provides practical daily understanding of correlations of WT and air permeability level of NOS knitted applied to garments in direct contact with the skin in subtropical climates.

Both academically and socially, the results can contribute to increasing information related to textile process and practical knowledge of knits to better accomplish AD clothing in subtropical climates. The practical wear test results with AD volunteers also indicate guidelines to parents who were having trouble identifying base layers, fundamental textiles and options for their kids in search of possible relief and well being mainly on hot days.

Circular knitting jersey linen study in direct contact with sensitive skin in a subtropical climate city like São Paulo is unique. The study also considered helping parents of a six-year-old AD boy in attendance to a doctor’s suggestion to find better options of clothings to be used during his daily routines.

The application of rinse cycle softener after the household laundry process has become more common in recent times. This study aims to understand the effect of repeated rinse cycle softener treatment on the mechanical and frictional properties of the cotton fabric.

Cotton-woven fabric is treated with commercial rinse cycle softener repeatedly for 15 times. After treatment, the fabric was evaluated for the changes in mechanical properties using the Kawabata evaluation system.

The results of this study revealed that the softener treatment reduces the tensile properties (41.25%) and increases the overall extensibility of the fabric up to 20.89%. The shear (34.57%) and bending rigidity of the treated fabric are reduced considerably than the untreated fabric (58.02%). The increment in the fabric softness and fluffiness was confirmed with the increment in the compression and the difference between the initial and final thickness at maximum pressure. Statistical significance (p < 0.05) is noted only in the case of bending and surface friction properties (dynamic friction).

The usage of rinse cycle softeners in the household laundry has a significant influence on the comfort characteristics of the cotton-woven fabric. Repeated usage of rinse cycle softener increased the fabric softness and fluffiness of the fabric and also reduced the tensile properties significantly.

The utilisation of softener after laundering of textile became one of the mandatory activities among the consumers. Hence, the purpose of this paper is to determine the influence of repeated rinse cycle softener treatment on the comfort characteristics of cotton and polyester woven fabric.

The selected cotton and polyester fabrics were treated using three different softeners types and three different numbers of rinsing times, namely 5, 10 and 15. The impact of repeated rinse cycle softener treatment on the comfort characteristics like absorbency, air permeability, wicking, thermal conductivity and flammability was analysed and the changes in the properties were confirmed using two-way ANOVA.

The number of rinse cycle softener treatment has a significant impact on the absorbency, air permeability and wicking ability of the cotton and polyester fabrics. The thermal conductivity and flammability characteristics of the fabrics mostly altered based on the type of fabric softener used. For all the type of fabric, the burning time reduced after the softener treatment.

The consumer expects the softness and fragrance smell developed by the rinse cycle softener and they intend to use it more frequently after every laundry process to achieve that feel. This repeated the application of softener causes a negative impact on the fabric performances. This research result provides an evidence for the changes in physiological comfort aspects of textiles.

This analysis enlightens the negative impact of the repeated use of commercial fabric softener and their types on the common fabrics used in apparel endues.

Synthetic textile materials are noted as one of the major contributors to microfiber pollution through laundry. Though many research works evaluated microfiber pollution, the solutions provided to control microfiber shedding are meager. The existing products collect or filter the microfiber from laundry effluent and restrict the direct leaching. However, no methods were proposed to effectively reduce the shedding from the textile itself.

This research is aimed to analyze the influence of surface modification of polyester knitted textiles by sodium hydroxide, on microfiber shedding. Response surface methodology was adapted to optimize different treatment parameters (alkali concentration, treatment time and temperature).

The results show that the sodium hydroxide concentration and treatment time had a negative correlation with microfiber shedding reduction. Whereas, treatment temperature had a positive correlation with microfiber shedding reduction. The statistical analysis revealed that 0.4 M concentration, 90°C temperature and 24 min of treatment time was the best process condition for minimum microfiber release. The same was confirmed with a practical experiment and a significant reduction of 80.63% in microfiber shedding after alkali treatment was found.

Alkali treatment of different knitted polyester fabrics with various knit structures and mass per square meter showed a significant reduction in microfiber shedding. The repeated laundry performed for 20 washes with surface-modified samples showed a significant reduction in microfiber release at every wash cycle and ensured the longevity of the effect.

Solar cells could make textile-based wearable systems energy independent without the need for battery replacement or recharging; however, their laundry resistance, which is prerequisite for the product acceptance of e-textiles, has been rarely examined. This paper aims to report a systematic study of the laundry durability of solar cells embedded in textiles.

This research included small commercial monocrystalline silicon solar cells which were encapsulated with functional synthetic textile materials using an industrially relevant textile lamination process and found them to reliably endure laundry washing (ISO 6330:2012). The energy harvesting capability of eight textile laminated solar cells was measured after 10–50 cycles of laundry at 40 °C and compared with light transmittance spectroscopy and visual inspection.

Five of the eight textile solar cell samples fully maintained their efficiency over the 50 laundry cycles, whereas the other three showed a 20%–27% decrease. The cells did not cause any visual damage to the fabric. The result indicates that the textile encapsulated solar cell module provides sufficient protection for the solar cells against water, washing agents and mechanical stress to endure repetitive domestic laundry.

This study used rigid monocrystalline silicon solar cells. Flexible amorphous silicon cells were excluded because of low durability in preliminary tests. Other types of solar cells were not tested.

A review of literature reveals the tendency of researchers to avoid standardized textile washing resistance testing. This study removes the most critical obstacle of textile integrated solar energy harvesting, the washing resistance.

The purpose of this paper is to focus on the performance analysis of Polyvinylpyrrolidone (PVP) – Chitosan composite dye transfer inhibitor (DTI) for household laundry. The developed composite DTI is tested against different commercial dyes and detergent powders normally used in the household laundry for its performance.

The DTI article is tested for its performance against five commercial dyes and five commercial detergent compositions. The dye re-deposition behaviour of the control fabric was measured in terms of the colour difference (ΔE) values. The influence of PVP on the washing efficiency of detergent was evaluated against tea, coffee and juice stains.

The results showed that there is an excellent performance of the developed product noted in terms of DTI performance against reactive, basic and sulfur dyes. The DTI product showed a significantly (p<0.05) less performance against acid and direct dyes. There is no significant differences noted in the stain removal efficiency of the detergent in the presence of PVP in the wash liquor (p>0.05).

The usage of DTI polymer in the household laundry has no significant influence on the detergents performance in terms of stain removing efficiency. The DTI polymer’s function in the wash liquor depends up on the type of polymer used, as they are sensitive to the type of detergent compositions used and the type of dyes bleeds in the wash liquor.