Lush Fresh Handmade CosmeticsLush Fresh Handmade Cosmetics<div class="ExternalClass5B585A86B8954D68B7F16D8750B60498"><p>A defining value of LUSH cosmetics is that when it comes to packaging, less is more. Throughout their product lines they aim for 'naked' products which can be purchased without packaging, and for their liquid products, one of their primary packaging forms is clear PET bottles made from 100% post-consumer recycled PET - #1 plastic, the most widely recyclable across North America. </p><p>Produced in Toronto, Ontario, the use of 100% recycled plastic means their bottles have about half of the energy used to create them compared to virgin PET bottles. They reduced the thickness of their bottles in 2012, enabling more bottles to be made with the same amount of material. Using additive manufacturing reduces excess byproducts throughout the supply chain.</p><p>LUSH minimizes waste throughout manufacturing and retail, from using reusable packaging where possible for internal inventory transfers, to monitoring and controlling their waste in a dynamic software system. Each production section has a green team, and they have an overall sustainability team who educates staff to ensure any defective plastic bottles enter recycling  - garbage bins are regularly inspected to make sure no bottles are slipping through. </p><p>These bottles are transported in bulk and distributed through stores across North America.  Although the PET bottle is the spotlight in this feature, LUSH also uses 100% post-consumer recycled PP (polypropylene) for their black pots, and 100% post-consumer recycled HDPE for their black bottles.</p></div><div class="ExternalClass4FB3132C71C644789E4F46B6771A4003"><p>​LUSH cosmetics creates fresh, handmade personal care products from soap to face masks and everything in between. Their clear PET bottles are made from 100% recycled resins with waste prevented throughout the supply chain.<br><br></p></div>Clear PET Bottleshttp://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpg, http://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpghttp://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpg, http://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpg

 

 

http://www.lush.com, http://www.lush.com<div class="ExternalClass5B585A86B8954D68B7F16D8750B60498"><p>A defining value of LUSH cosmetics is that when it comes to packaging, less is more. Throughout their product lines they aim for 'naked' products which can be purchased without packaging, and for their liquid products, one of their primary packaging forms is clear PET bottles made from 100% post-consumer recycled PET - #1 plastic, the most widely recyclable across North America. </p><p>Produced in Toronto, Ontario, the use of 100% recycled plastic means their bottles have about half of the energy used to create them compared to virgin PET bottles. They reduced the thickness of their bottles in 2012, enabling more bottles to be made with the same amount of material. Using additive manufacturing reduces excess byproducts throughout the supply chain.</p><p>LUSH minimizes waste throughout manufacturing and retail, from using reusable packaging where possible for internal inventory transfers, to monitoring and controlling their waste in a dynamic software system. Each production section has a green team, and they have an overall sustainability team who educates staff to ensure any defective plastic bottles enter recycling  - garbage bins are regularly inspected to make sure no bottles are slipping through. </p><p>These bottles are transported in bulk and distributed through stores across North America.  Although the PET bottle is the spotlight in this feature, LUSH also uses 100% post-consumer recycled PP (polypropylene) for their black pots, and 100% post-consumer recycled HDPE for their black bottles.</p></div><div class="ExternalClass4FB3132C71C644789E4F46B6771A4003"><p>​LUSH cosmetics creates fresh, handmade personal care products from soap to face masks and everything in between. Their clear PET bottles are made from 100% recycled resins with waste prevented throughout the supply chain.<br><br></p></div>Clear PET Bottleshttp://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpg, http://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpghttp://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpg, http://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpg

 

 

http://www.lush.com, http://www.lush.comhttp://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpg, http://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpghttp://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpg, http://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-large.jpghttp://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-small.jpg, http://www.nzwc.ca/focus/design/portfolio/ProductImages/lush-small.jpg

Pre-use involves all the steps from cradle (the origin of the materials) to the customers door; manufacturing/production, distribution and sale.
Sourcing resources that are rapidly renewed through natural cycles can reduce dependence on non-renewable materials. This promotes natural production systems that can continue indefinitely (in theory).
It’s important to consider compostability from the beginning. Material chemistry, processing additives, and trace elements (e.g. inks) can affect how well a product or package exceeds standards for compostable certification. These will also affect whether the materials are suitable for another industry’s use (e.g. methane extraction).
Minimize the environmental impact of a product or packaging by reducing the volume and/or weight of materials used. This “dematerialization” can happen both by making the item itself out of less material, and by optimizing the raw material extraction and manufacturing processes to reduce the amount of material used.
Byproducts are the materials created during manufacture that are not used in the final item. Planning the next use of these byproducts by another industry, or internally, can contribute significantly to waste reduction.
Reduce energy use wherever possible. Renewable energy to power extraction and manufacturing reduces reliance on non-renewable sources. Using energy efficient machinery further cuts resource and energy costs.
Reducing weight of a product and its package can considerably reduce energy use during transportation and manufacture; however, reducing the weight should not jeopardize product life span through reduced performance .
A package should protect its contents, and inform and appeal to the consumer without using excess material. Together, the product and package should be strong enough to reach the consumer without damage. The more efficiently it is designed for transport, storage and display, the better it is at reducing waste.
Some manufacturing techniques produce less waste than others. Low waste manufacturing processes consider effluent and byproduct control to limit the spread of waste, minimize materials used (e.g. additive manufacturing) or find uses for by-products (e.g. cascading subtractive).
Transport happens at all stages of the life cycle. Considering relative greenhouse gas emissions from different modes of transportation - rail, ocean, air, road – can be an important step, and an easy one to optimize in the production chain.
Optimizing energy efficiency and encouraging eco-efficient appliances influence how much energy is used once a product or package is in the consumer’s hands.
Consumer preference analysis can determine whether a product or package is actually meeting its intended use; a well-designed product reduces the chance of premature disposal.
Instructions are an opportunity to communicate value to the consumer. If a customer doesn’t fully understand how a product or package works or needs to be maintained, it opens the way for breakage, under-use, and early disposal.
Design to increase product longevity reduces the number and frequency of replacements.
The more prominent, catchy, and clear disposal instructions are, the more likely the consumer will be able to reach the goal of reducing waste after use. Better designs will accommodate regional infrastructure capacity for waste disposal.
If taking the product or package apart is complex, it can limit or prohibit disassembly post-use. Designing with fewer parts and design for intentional disassembly increases re-use, reclamation, and recycling.
Design for direct reuse is more efficient than disassembly or recycling. This means creating a product that can be directly reused at the end of life, without extra processing.
Byproducts, effluent, and even post-use products and packaging can supply another industry’s production line. This is called industrial ecology, or industrial symbiosis, and is arranged apart from consumer/municipal recycling systems.
Designing a product for a specific waste stream (e.g. recycling, composting, methane extraction) is first-stage systems thinking; collaborating with the waste handling industry is the next. Ensuring there is an end market for the product and packaging post use, and that this market is available wherever the item is sold, is integral to optimizing end-of-life.
Designing for recycling is a basic and accessible way to reduce waste after use. The recycling industry collects commonly used materials, processes and sells them into a new system of production. This can be an energy and transport-intensive process, and usually results in downgrading of materials over multiple recycling cycles. Designing for optimal recyclability and up-cycling (recycling to a product of equal or higher value) is a next-level way to approach this principle.
Composting is the recycling of organic materials – biological nutrients to feed rapidly renewable resources. Not all products or packages can or should be designed to be compostable, but some industries are especially suitable for it, such as foodware and food packaging. Designing a compostable product requires careful consideration of materials, certification, and that the conditions required to compost are met in the market area.

 

 

<div class="ExternalClassB78D8EF1E59048C992C51B1142102EB2"> <ul><li>Made from 100% post-consumer recycled PET</li><li>Minimized wall thickness in 2012</li><li>100% recyclable</li></ul></div>100.000000000000100.0000000000000010010101011001000011recycledrecyclable