When selecting a packaging material, the first thing a designer should consider is its ability to successfully contain the product. The form of packaging can contribute greatly to the narrative a brand is trying to convey and its intent. Therefore, the second point for designers to consider is to establish and develop a brand narrative by creating different shapes. Finally, designers also consider surface graphics that will decorate the packaging solution to better showcase the brand to the target market. These three elements can be considered as single, continuous, or overall design issues. The materials guidelines summarized on this page highlight the basic considerations that should be made when utilizing certain materials appropriately while also examining the advantages, disadvantages, costs, and ease of processing surface patterns of different materials.
Steel material
Steel can be made into solid, high-strength containers and can be used for packaging liquids and food. It has high protective properties and can be recycled. Printed paper labels are often used, but steel The quality of the product is very important and the reshaping ability is also subject to certain limitations. Aluminum material limit.
Polyvinyl chloride or low-density polyethylene thin glue
These two materials are light, transparent and low-cost, but they are easy to tear and difficult to print graphic information on the surface and difficult to recycle. Generally used to package food.
Wood material
Wood is a primitive packaging material that can be used to make large packages for shipping goods or gift boxes such as Xun wine boxes. Wood can be treated with a heat imprinting process to create surface patterns that generally use paper labels.
Low-density polyethylene material
This material can be made into high-strength and lightweight films. It is flexible and has a plastic surface that can be printed. It is mostly used to make plastic bags, trays and other general containers. It is mostly used for food storage. It can be recycled and reused, but it does not break down in piles.
Paper bag materials
Paper bags are lightweight, low-cost, and easy to print and recycle. However, paper bags are also easy to tear and have certain limitations in shaping capabilities.
Polypropylene material
Polypropylene is a fatigue-resistant thermoplastic polymer that can be used for plastic hinge connections such as cans, food containers that will not melt during industrial hot filling processes, and after use Disposable plastic bottles and the like are made of this polymer.
Plastic bag materials
Plastic bags are lightweight, low-cost, easy-to-print packaging, but they are easily torn (depending on the thickness of the film) and have certain limitations in shaping capabilities. Nowadays, plastic bags have gradually fallen out of favor because they have a great impact on the environment and cannot be recycled by consumers
Paper materials
Paper can be used to package items of any shape, light weight, surface, printable, recyclable, but paper products Easily torn and not very strong.
Tetra Pak Material
Tetra Pak is a high-strength container for storing liquids. It has high protective properties, is of high quality, is light-weight and can be printed on the surface but difficult to recycle.
Cardboard material
Cardboard has high strength, high protective performance, printable surface, light weight, low cost and recyclability, but it has certain limitations in shape shaping.
Glass materials
Glass products are high-strength containers for liquids. They are easy to shape and have high protective properties. They can be recycled. Shrink film labels are used, but the manufacturing process requires a lot of energy. Surface printing also has certain limitations. Restraints can injure someone if they are broken.
High-density polyethylene material
This material can be made into a strong and reliable container, which can hold liquids such as detergents. It is lightweight, has strong plasticity, uses paper labels, and can be recycled.
Shrink film material
This is a film made of polyolefin or polyvinyl chloride. After heating and shrinking, it can package products of any shape. It is light in weight and low in cost, but it is difficult to recycle and surface print, and is easy to tear. break.
News