ʻO nā mea hoʻohui nui o 6063 ʻO ka alumini alumini he magnesium a me ke silika. Loaʻa iā ia ka hana machining maikaʻi loa, maikaʻi loa weldability, extrudability, a me ka hana electroplating, maikaʻi ka corrosion kū'ē, ʻoʻoleʻa, maʻalahi ka poli, ka uhi ʻana, a me ka hopena anodizing maikaʻi loa.
ʻO ia ka mea hao extruded maʻamau i hoʻohana nui ʻia i nā profiles kūkulu, paipu wai, paipu, nā pou a me nā pā kaʻa, lako lako, elevators, fences, etc.
6063 is typically used to build contours.
ʻO nā mea hoʻohui nui o 6061 ʻO ka alumini alumini he magnesium a me ke silika, forming Mg2Si.
If it contains a certain amount of manganese and chromium, it can neutralize the adverse effects of iron; Sometimes, small amounts of copper or zinc are added to increase the strength of the alloy without significantly reducing its corrosion resistance.
There is also a small amount of copper in the conductive material to offset the adverse effect of titanium and iron on the conductivity, Or zirconium and titanium can refine the grain and control the recrystallized structure; Lead and bismuth may be added to improve machinability.
In Mg2Si, the Mg/Si ratio is 1.73. In the heat treatment state, Mg2Si is dissolved in aluminum, so that the alloy has the function of artificial aging hardening.
6061 Industrial structural parts are required to have a certain strength, weldability, and high corrosion resistance.
6061 requires a variety of industrial structures with a certain strength, weldability, and corrosion resistance, such as pipes, rods, profiles, and plates used in the manufacture of trucks, tower buildings, ships, trams, lako lako, machine parts, precision machining, etc.
ʻO ka maʻamau, there are more alloying elements in 6061 than in 6063, so the material strength is higher.
