1, sintering sintering
A powder or compact heat treatment at a temperature below the melting point of the main component, object by metallurgically bonding between the particles to increase its strength.
2 , packing packingmaterial
A material in which a compact is embedded during the pre-firing or sintering process for separation and protection.
3 , pre-burning presintering
The heat treatment of the green compact is carried out at a temperature lower than the final sintering temperature.
4 , pressure sintering pressure
A sintering process that applies uniaxial pressure while sintering.
5 , loose- sintered loose-powdersintering, gravitysintering
The powder is directly sintered without pressing.
6 , liquid phase sintering liquid-phasesintering
The powder or compact having at least two components is sintered in a state in which a liquid phase is formed.
7 , overburning oversintering
Sintering where the sintering temperature is too high and/or the sintering time is too long to deteriorate the final properties of the product.
8 , underburning undersintering
Sintering where the sintering temperature is too low and/or the sintering time is too short to cause the product to fail to achieve the desired properties.
9 , infiltration infiltration
A process for filling pores in an unsintered or sintered article in a molten state with a metal or alloy having a melting point lower than the melting point of the article.
10 , dewaxing dewaxing , burn-off
The organic additive (binder or lubricant) in the compact is discharged by heating.
11 , mesh belt furnace meshbeltfurnace
A mesh belt, which is generally protected by a muffle, implements a continuous furnace for the continuous conveyance of the furnace.
12 , walking beam furnace walking-beamfurnace
A sintering furnace in which a part placed in a sintering disk is conveyed in a furnace by a walking beam system.
13 , pusher furnace pusherfurnace
A sintering furnace in which parts are placed in a burning boat and the parts are conveyed in a furnace through a propulsion system.
14 , sintered neck forming neckformation
A neck-like bond is formed between the particles during sintering.
15, blistering blistering
Due to the violent discharge of the gas, bubbling is formed on the surface of the sintered part.
16 , sweating sweating
The phenomenon of liquid phase oozing out during the heat treatment of the green compact.
17 , sintered shell sinterskin
When sintered, a surface layer formed on the sintered part has properties different from the inside of the product.
18 , relative density relativedensity
The ratio of the density of the porous body to the density of the same component material in the non-porous state is expressed as a percentage.
19 , radial crush density radialcrushingstrength
The burst strength of the sintered cylindrical specimen measured by applying radial pressure.
20, porosity Porosity
The ratio of the volume of all pores in the porous body to the total volume.
21 , diffusion pore diffusionporosity
A component material due to the Kirkendall effect diffuses into the pores formed in another component.
22 , pore size distribution poreizedistribution
The percentage of the pore size of each stage present in the material as a function of quantity or volume.
23 , apparent hardness apparenthardness
The hardness of the sintered material measured under specified conditions, which includes the effect of the pores.
24 , solid hardness solidhardness
The hardness of a phase or particle or a region of the sintered material measured under specified conditions, which excludes the effect of the pores.
25 , foaming pressure bubble-pointpressure
The minimum pressure required to force the first bubble by the gas through the liquid impregnated article.
26 , fluid permeability fluidpermeability
The amount of liquid or gas passing through the porous body per unit time measured under specified conditions.
PBL (Polybutylene terephthalate laminate) plastic tube packaging is a type of packaging that is commonly used in the cosmetics and personal care industries. It consists of a laminate of polybutylene terephthalate (PBT) and aluminum foil, which provides a high barrier to moisture, oxygen, and light. The PBT layer also provides a high level of chemical resistance, making it suitable for a wide range of products.
PBL plastic tube packaging is available in a variety of sizes and shapes, and can be customized with different colors, finishes, and printing options. It is typically used to package products such as creams, lotions, gels, and serums.
Some of the benefits of PBL plastic tube packaging include:
1. High barrier properties: PBL plastic tube packaging provides a high level of protection against moisture, oxygen, and light, which helps to preserve the quality and shelf life of the product.
2. Chemical resistance: The PBT layer in PBL plastic tube packaging provides a high level of chemical resistance, making it suitable for a wide range of products.
3. Customization options: PBL plastic tube packaging can be customized with different colors, finishes, and printing options, allowing brands to create a unique and eye-catching design.
4. Convenience: PBL plastic tube packaging is lightweight and easy to use, making it a convenient option for consumers.
Overall, PBL plastic tube packaging is a versatile and effective packaging option for a wide range of products in the cosmetics and personal care industries.
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