Project Reporthttp://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/15612026-04-15T10:00:36Z2026-04-15T10:00:36ZDevelopment of a Fit Sample from Designer Sketch and Measurement ChartAli, Adnan Sanzidhttp://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/153732025-11-04T21:02:37Z2024-12-30T00:00:00ZDevelopment of a Fit Sample from Designer Sketch and Measurement Chart
Ali, Adnan Sanzid
This project involves performing all operations needed to develop a garment fit sample under a specific purchase order from a multinational fashion retailer named Hennes and Mauritz AB, popularly known as H&M, based in Sweden for their womenswear premium brand ARKET. This highlights the significance of fit sample development in the initial stage of purchase order confirmation and describes the difficulties a manufacturer encounter in producing perfect samples. By emphasizing the key documents such as the tech pack, which lists specifications like fabric types, trims, and design details etc., the study seeks to offer a thorough grasp of the sample development process, from initial stages to final approval. This paper analyzes the sample development process by looking at the different steps and requirements needed to get buyer approval. Specification sheets, fabrics, care labels, accessories, and style sketches are all thoroughly evaluated in this regard. The results demonstrated the need for accurate documentation and effective communication between the personnel involved in the sample development process to successfully produce a faultless fit sample.
Project
2024-12-30T00:00:00ZComparative Study on Dyeing Behavior of Different Shades of Reactive Dyes on Cotton Woven and Knit FabricsBadhon, Md. Shoun Islamhttp://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/153722025-11-04T21:02:37Z2024-12-17T00:00:00ZComparative Study on Dyeing Behavior of Different Shades of Reactive Dyes on Cotton Woven and Knit Fabrics
Badhon, Md. Shoun Islam
The present study explores the dyeing behavior of cotton woven and knit fabrics using reactive dyes at 3 different percentages of shade: 0.5%, 1.5%, and 3.0%. Six samples were prepared by dyeing three woven and three knit fabric samples, using the same conditions. The research consists of a typology of critical parameters (fabric weight (GSM), wale per inch (WPI), course per inch (CPI), ends per inch (EPI), and picks per inch (PPI)) to investigate structural differences between woven and knit fabrics. Performance characteristics like continuous washing fastness, drapability, bursting strength and tensile strength were analyzed with respect to the dyeing behavior in terms of shade percentage and fabric construction. The results of dye uptake, fastness properties and mechanical performance were shown to have significant variation depending on fabric type and the shade depth. Knit fabrics were more flexible, but had a weaker burstingstrength and lower tensile strength, while woven fabrics had a higher dimensional stability and tearing resistance and a higher tensile strength. The results exhibited dyeing behavior of woven and knit cotton fabrics and discussed the effect of fabric structure and depth of shade on physical and mechanical properties. The results can be applied to engineer dyeing processes and fabric selection for optimal performance in various applications.
Project
2024-12-17T00:00:00ZComparative Study On Slasher Denim &Rope DenimFahim, Mahmudul HasanNandi, Chandan Kumarhttp://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/153712025-11-04T21:01:54Z2024-11-23T00:00:00ZComparative Study On Slasher Denim &Rope Denim
Fahim, Mahmudul Hasan; Nandi, Chandan Kumar
During my tenure in the denim fabric industry, specifically within the warping division, I conducted an in-depth analysis of the production processes and discerned the necessity for rigorous assessment to enhance operational efficiency. My focus was on refining both rope dyeing and sheet dyeing techniques for denim manufacturing. Through careful scrutiny, I optimized workflows, minimized waste, and improved performance in both rope and panel denim production. It became evident that production losses were disproportionately higher in panel denim compared to rope denim. I meticulously gathered and analyzed data from each production phase and method. Utilizing this data, I developed strategies aimed at augmenting profitability and reducing operational costs, with a particular emphasis on implementing more streamlined production setups. Through collaboration with industry experts, I deepened my understanding of machine mechanics and identified key factors influencing production efficacy. My concerted efforts culminated in successfully meeting the project’s objectives. The knowledge I accrued through both academic study and hands-on industrial experience was instrumental in my achievements, and I owe much of my success to the invaluable guidance provided by my esteemed mentors.
Project
2024-11-23T00:00:00ZSustainable Menstrual Hygiene: .http://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/153702025-11-04T21:01:55Z2024-11-23T00:00:00ZSustainable Menstrual Hygiene: .
This thesis explores the feasibility and effectiveness of utilizing banana fiber as a sustainable alternative for the production of sanitary pads. With a growing global awareness of the environmental impact associated with traditional menstrual hygiene products, the need for eco- friendly alternatives has become imperative. The research delves into the mechanical and absorbent properties of banana fibers, investigating their potential as a biodegradable and cost- effective material for sanitary pad production. The study involves the extraction and processing of banana fibers, followed by the design and manufacturing of prototype sanitary pads. The performance of these pads is evaluated through comprehensive laboratory tests, including absorbency, comfort, and durability assessments. Comparative studies are conducted against conventional sanitary pads to assess the overall effectiveness and user satisfaction of the banana fiber-based alternative. Furthermore, the environmental impact of the banana fiber sanitary pads is analyzed, considering factors such as production energy, carbon footprint, and disposal. A life cycle assessment is conducted to provide a holistic understanding of the ecological footprint associated with both traditional and banana fiber-based sanitary pads.
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2024-11-23T00:00:00Z