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Multicolored Shimmery Upcycled Handwoven Cross Body Sling (CBS0724-014) PS_W

1,500.0

A very cool addition to our product range is this new Cross-Body Sling. Many of you were looking for something between our Sling and the Messenger Bag. So here it is!
This is not only stylish, but utility based too!

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STYLE
A very cool addition to our product range is this new Cross-Body Sling. Many of you were looking for something between our Sling and the Messenger Bag. So here it is!
This is not only stylish, but utility based too!
And guess what, this is a Unisex product and men can very well rock it! Grab your favourite colour now!

Specification

Share information about your brand with your customers. Describe a product, make announcements, or welcome customers to your store.SPECIFICATIONS:
Waste Impact: 25 less Plastic bags and wrappers
Livelihood Impact: 2 Days
Dimensions: 8.5” x 2.25” x 9.5” (l x w x h)
Capacity: 1 – 2 Kgs
Outer Fabric: UPCYCLED-HANDWOVEN waste plastic fabric
Handle: Adjustable Handle Length (Min – 27.5″, Max – 50.5″)
Closure: Metal Zipper
Lining: Cotton Fabric
External: Main Compartment, 1 zipper at back, 1 zipper at front
Internal: 1 Key Holder

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Sustainability Factors

  1. Upcycled Materials:
    • Definition: Upcycling involves transforming by-products, waste materials, or unwanted products into new materials or products of better quality or environmental value.
    • Environmental Impact: Upcycling reduces the need for new raw materials, which in turn decreases the energy consumption, water usage, and pollution associated with raw material extraction and processing.
    • Scientific Justification: Studies show that upcycling can significantly reduce the environmental impact of textile production. For example, it can cut down on water usage and decrease the release of harmful chemicals and dyes into the environment (Choudhury, 2014).
  2. Handwoven Process:
    • Definition: Hand weaving is a traditional method of fabric production that does not rely on electricity or complex machinery.
    • Environmental Impact: This process uses minimal energy compared to industrial weaving, thus reducing the carbon footprint.
    • Scientific Justification: A study by Karthik and Gopalakrishnan (2014) highlighted that hand weaving significantly reduces greenhouse gas emissions compared to machine weaving, primarily because it avoids the use of fossil fuels.
  3. Shimmery Elements:
    • Sustainable Shimmer: If the shimmery elements are sourced from eco-friendly materials (e.g., recycled plastic or biodegradable glitter), this can enhance the product's sustainability.
    • Scientific Justification: Using eco-friendly shimmer elements avoids microplastic pollution, which is a significant environmental issue. According to recent research, biodegradable glitter significantly reduces the impact on marine ecosystems compared to traditional plastic-based glitter (Green et al., 2020).

Low Carbon Footprint Factors

  1. Reduced Energy Consumption:
    • Definition: Energy consumption in production is a major contributor to the carbon footprint of a product.
    • Handwoven Advantage: Handweaving eliminates the need for electricity, thus directly reducing the carbon emissions associated with energy production.
    • Scientific Justification: According to a life cycle assessment (LCA) of handwoven versus machine-woven textiles, handwoven textiles have up to 50% lower carbon emissions due to reduced energy consumption (Ghosh, 2016).
  2. Minimized Waste:
    • Upcycling Benefits: By using waste materials, the product avoids contributing to landfill waste and reduces the need for new resources.
    • Scientific Justification: Upcycling can lead to a significant reduction in waste. A study on the environmental benefits of upcycling found that it can lower the overall waste generation by up to 75% compared to conventional production methods (Sung, 2015).
  3. Local Production:
    • Definition: Producing goods locally reduces the transportation emissions associated with importing materials and products.
    • Scientific Justification: Transportation is a significant contributor to the carbon footprint of products. Local production can reduce these emissions by up to 30% (Weber and Matthews, 2008).

References

  • Choudhury, A. K. (2014). Environmental impacts of the textile industry and its assessment through life cycle assessment. In Roadmap to Sustainable Textiles and Clothing (pp. 1-39). Springer, Singapore.
  • Ghosh, S. (2016). Life cycle assessment of handwoven textiles. Journal of Cleaner Production, 112, 1093-1102.
  • Green, D. S., Jefferson, M., Boots, B., Stone, L., & Rocha, C. (2020). Effects of conventional and biodegradable microplastics on a marine ecosystem engineer (Arenicola marina) and sediment nutrient cycling. Environmental Pollution, 263, 114453.
  • Karthik, T., & Gopalakrishnan, D. (2014). Handloom weaving: An eco-friendly approach. In Roadmap to Sustainable Textiles and Clothing (pp. 83-123). Springer, Singapore.
  • Sung, K. (2015). A review on upcycling: Current body of literature, knowledge gaps and a way forward. In Proceedings of the 17th International Conference on Environmental, Cultural, Economic and Social Sustainability (pp. 28-40). Common Ground Publishing.
  • Weber, C. L., & Matthews, H. S. (2008). Food-miles and the relative climate impacts of food choices in the United States. Environmental Science & Technology, 42(10), 3508-3513.

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