The elasticity of the aluminum alloy

Aluminium alloys typically have an elastic modulus of about 70 GPa, which is about one-third of the elastic modulus of most kinds of steel and steel alloys. Therefore, for a given load, a component or unit made of an aluminium alloy will experience a greater deformation in the elastic regime than a steel part of identical size and shape. Though there are aluminium alloys with somewhat-higher tensile strengths than the commonly used kinds of steel, simply replacing a steel part with an aluminium alloy might lead to problems.

With completely new metal products, the design choices are often governed by the choice of manufacturing technology. Extrusions are particularly important in this regard, owing to the ease with which aluminium alloys, particularly the Al–Mg–Si series, can be extruded to form complex profiles.

In general, stiffer and lighter designs can be achieved with aluminium alloys than is feasible with steels. For instance, consider the bending of a thin-walled tube: the second moment of area is inversely related to the stress in the tube wall, i.e. stresses are lower for larger values. The second moment of area is proportional to the cube of the radius times the wall thickness, thus increasing the radius (and weight) by 26% will lead to a halving of the wall stress. For this reason, bicycle frames made of aluminium alloys make use of larger tube diameters than steel or titanium in order to yield the desired stiffness and strength. In automotive engineering, cars made of aluminium alloys employ space frames made of extruded profiles to ensure rigidity. This represents a radical change from the common approach for current steel car design, which depend on the body shells for stiffness, known as unibody design.

Aluminium alloys are widely used in automotive engines, particularly in cylinder blocks and crankcases due to the weight savings that are possible. Since aluminium alloys are susceptible to warping at elevated temperatures, the cooling system of such engines is critical. Manufacturing techniques and metallurgical advancements have also been instrumental for the successful application in automotive engines. In the 1960s, the aluminium cylinder heads of the Corvair earned a reputation for failure and stripping of threads, which is not seen in current aluminium cylinder heads.

An important structural limitation of aluminium alloys is their lower fatigue strength compared to steel. In controlled laboratory conditions, steels display a fatigue limit, which is the stress amplitude below which no failures occur –the metal does not continue to weaken with extended stress cycles. Aluminium alloys do not have this lower fatigue limit and will continue to weaken with continued stress cycles. Aluminium alloys are therefore sparsely used in parts that require high fatigue strength in the high cycle regime (more than 107 stress cycles).

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Lucy Xie

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Xie,SEKO Machinery

Suggested Reading: What is the definition of a steel?

Aluminum alloy heat sensitivity

Often, the metal's sensitivity to heat must also be considered. Even a relatively routine workshop procedure involving heating is complicated by the fact that aluminium, unlike steel, will melt without first glowing red. Forming operations where a blow torch is used can reverse or remove heat treating, therefore is not advised whatsoever. No visual signs reveal how the material is internally damaged. Much like welding heat treated, high strength link chain, all strength is now lost by heat of the torch. The chain is dangerous and must be discarded.

Aluminium is subject to internal stresses and strains. Sometimes years later, as is the tendency of improperly welded aluminium bicycle frames to gradually twist out of alignment from the stresses of the welding process. Thus, the aerospace industry avoids heat altogether by joining parts with rivets of like metal composition, other fasteners, or adhesives.

Stresses in overheated aluminium can be relieved by heat-treating the parts in an oven and gradually cooling it—in effect annealing the stresses. Yet these parts may still become distorted, so that heat-treating of welded bicycle frames, for instance, can result in a significant fraction becoming misaligned. If the misalignment is not too severe, the cooled parts may be bent into alignment. Of course, if the frame is properly designed for rigidity (see above), that bending will require enormous force.

Aluminium's intolerance to high temperatures has not precluded its use in rocketry; even for use in constructing combustion chambers where gases can reach 3500 K. The Agena upper stage engine used a regeneratively cooled aluminium design for some parts of the nozzle, including the thermally critical throat region; in fact the extremely high thermal conductivity of aluminium prevented the throat from reaching the melting point even under massive heat flux, resulting in a reliable, lightweight component.

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Lucy Xie

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Xie,SEKO Machinery

Suggested Reading: The elasticity of the aluminum alloy

What is the definition of a steel?

The carbon content of steel is between 0.002% and 2.1% by weight for plain iron-carbon alloys. These values vary depending on alloying elements such as manganese, chromium, nickel, iron, tungsten, carbon and so on. Basically, steel is an iron-carbon alloy that does not undergo eutectic reaction. In contrast, cast iron does undergo eutectic reaction, suddenly solidifying into solid phases at exactly the same temperature. Too little carbon content leaves (pure) iron quite soft, ductile, and weak. Carbon contents higher than those of steel make an alloy, commonly called pig iron, that is brittle (not malleable). While iron alloyed with carbon is called carbon steel, alloy steel is steel to which other alloying elements have been intentionally added to modify the characteristics of steel. Common alloying elements include: manganese, nickel, chromium, molybdenum, boron, titanium, vanadium, tungsten, cobalt, and niobium. Additional elements are also important in steel: phosphorus, sulfur, silicon, and traces of oxygen, nitrogen, and copper.

Alloys with a higher than 2.1% carbon content, depending on other element content and possibly on processing, are known as cast iron. Cast iron is not malleable even when hot, but it can be formed by casting as it has a lower melting point than steel and good castability properties. Certain compositions of cast iron, while retaining the economies of melting and casting, can be heat treated after casting to make malleable iron or ductile iron objects. Steel is also distinguishable from wrought iron (now largely obsolete), which may contain a small amount of carbon but large amounts of slag.

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Lucy Xie

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Skype:Lucy
Xie,SEKO Machinery

Suggested Reading: SEKO machinery activities - Go to play Dafu mountain(2)

SEKO Machinery activities - Go to play Dafu mountain(2)

On Saturday November 21, 2015, our SEKO Machinery Company organized an outdoor activities, went to the Dafu Mountain of Guangzhou for a Barbecue. The trip we were delighted and play very excited. Colleagues are all very miss it now, so let's recall the happy journey!

Guangdong Shunde Seko Machinery & Technology Co.,Ltd.www.gdseko.com

Lucy Xie

sevvice@gdseko.com
Skype:Lucy
Xie,SEKO Machinery

Suggested Reading: The maintenance of the copper tubing

Current Scrap Prices 2015 in China

Scrap Prices are very important to scrap metal collectors and operators in the recycling industry. So, they always search for current scrap prices.

Last Updated: September 25, 2015.

Prices for Shanghai presented and CNY / MT.

（1） Aluminum Scrap: Aluminum -- 11790, 6063 Extrusion -- 9500, EC Wire (Al >99%) --10500, Aluminum Can --7900.

（2） Brass Scrap: Yellow Brass –25500.

（3） Copper Scrap: Copper --39130, Bare Bright (Cu >99%) --35700 , No.

1 Copper (Cu 96-98%) --34500, No. 2 Copper (Cu 94-96%) –32500.

（4） Stainless Steel Scrap: 316 SS Solid –11100, 301 SS –5900, 201 SS --2600.

（5） Steel Scrap: Mix Steel Scrap--630, #1 HMS –1000.

（6） Zinc & Lead Scrap: Zinc --14520, Zinc Die Cast with Lead--10760, Zinc Die Cast

（7） (Old) --11680, Lead --13450, Lead Weight --13795, Soft Lead--14560.

Scrap Monster

Updated on October 23, 2015

（1） Aluminum Scrap: Aluminum ingots --11800, 6063 Extrusions--11400, Aluminum Radiators --9350, E.C. Aluminum Wire --11750, Aluminum Transformers--10500, Old Sheet --10600, Old Cast --10600, Zorba 90% NF --10050, UBC --9050.

（2） Brass/Bronze: Yellow Brass --32050, Red Brass --34850, Brass Radiator --30450.

（3） Copper Scrap: #1 Insulated Copper Wire 85% Recovery –28800, #1 Copper Wire and Tubing --37700, #1 Copper Bare Bright--38700, #2 Insulated Copper Wire 50% Recovery –24450, #2 Copper Wire and Tubing--35700, Sealed Units--5600, Scrap Electric Motors --5750, Heater Cores --28900, Harness Wire 35% Recovery--16100, Cu/Al Radiators --24400, Cu Yokes --17150, Copper Transformer Scrap--11800.

（4） Stainless steel: 316 SS Solid --12000, 310 SS --16250, 309 SS--11350, 304 SS Turning --7750, 304 SS Solid --8550, 201 SS --3750, Shred SS --8350.

（5） Other Items: Shred Zinc --11700, Cast Iron Scrap --2080, #1 HMS--2120, Soft Lead --12200, Auto Battery --6800, #2 Lead Scrap--12000, Nickel--75500.

Guangdong Shunde Seko Machinery & Technology Co.,Ltd.www.gdseko.com

Lucy Xie

sevvice@gdseko.com
Skype:Lucy
Xie,SEKO Machinery

Suggested Reading: The maintenance of the copper tubing

The maintenance of the copper tubing

1、Corrosion

Copper water tubes are susceptible to: cold water pitting caused by contamination of the pipe interior, typically with soldering flux; erosion corrosion caused by high speed or turbulent flow; and stray current corrosion, caused by poor electrical wiring technique, such as improper grounding and bonding.

2、Pin holes

Pin-hole leaks with pitting initiating on the exterior surface of the pipe, can occur if copper piping is improperly grounded or bonded. The phenomenon is known technically as stray current corrosion or electrolytic pitting. Pin-holing due to poor grounding or poor bonding occurs typically in homes where the original plumbing has been modified; homeowners may find that a new plastic water filtration device or plastic repair union has interrupted the water pipe's electrical continuity to ground, when they start seeing pinhole water leaks after a recent install. Damage occurs rapidly, usually becoming obvious about six months after the ground interruption. Correctly installed plumbing appliances will have a copper bonding jumper cable connecting the interrupted pipe sections. Pinhole leaks from stray current corrosion can result in thousands of dollars in plumbing bills, and sometimes require the replacement of the entire affected water line. The cause is fundamentally an electrical defect, not a plumbing defect; once the plumbing damage is repaired, an electrician should promptly be consulted to evaluate the grounding and bonding of the entire plumbing and electrical systems.

Guangdong Shunde Seko Machinery & Technology Co.,Ltd.www.gdseko.com

Lucy Xie

sevvice@gdseko.com
Skype:Lucy
Xie,SEKO Machinery

Suggested Reading: What are the types of copper tubing?（2）

What are the types of copper tubing?

Copper tubing is most often used for supply of hot and cold tap water, and as refrigerant line in HVAC systems. There are two basic types of copper tubing, soft copper and rigid copper. Copper tubing is joined using flare connection, compression connection, or solder. Copper offers a high level of corrosion resistance, but is becoming very costly.

1、Soft copper

Soft (or ductile) copper tubing can be bent easily to travel around obstacles in the path of the tubing. While the work hardening of the drawing process used to size the tubing makes the copper hard or rigid, it is carefully annealed to make it soft again; it is therefore more expensive to produce than non-annealed, rigid copper tubing. It can be joined by any of the three methods used for rigid copper, and it is the only type of copper tubing suitable for flare connections. Soft copper is the most popular choice for refrigerant lines in split-system air conditioners and heat pumps.

2、Rigid copper

Rigid copper is a popular choice for water lines. It is joined using a sweat, roll grooved, compression or crimped/pressed connection. Rigid copper, rigid due to the work hardening of the drawing process, cannot be bent and must use elbow fittings to go around corners or around obstacles. If heated and allowed to cool in a process called annealing, rigid copper will become soft and can be bent/formed without cracking.

3、Soldered connections

Solder fittings are smooth, and easily slip onto the end of a tubing section. The joint is then heated using a torch, and solder is melted into the connection. When the solder cools, it forms a very strong bond which can last for decades. Solder-connected rigid copper is the most popular choice for water supply lines in modern buildings. In situations where many connections must be made at once (such as plumbing of a new building), solder offers much quicker and much less expensive joinery than compression or flare fittings. The term sweating is sometimes used to describe the process of soldering pipes.

 
4、Compression connections

Compression fittings use a soft metal or thermoplastic ring (the compression ring, "olive" or "ferrule") which is squeezed onto the pipe and into the fitting by a compression nut. The soft metal conforms to the surface of the tubing and the fitting, and creates a seal. Compression connections do not typically have the long life that sweat connections offer, but are advantageous in many cases because they are easy to make using basic tools. A disadvantage in compression connections is that they take longer to make than sweat, and sometimes require re-tightening over time to stop leaks.

5、Flare connections

Flare connections require that the end of a tubing section be spread outward in a bell shape using a flare tool. A flare nut then compresses this bell-shaped end onto a male fitting. Flare connections are a labor-intensive method of making connections, but are quite reliable over the course of many years.

6、Crimped or pressed connections

Crimped or pressed connections use special copper fittings which are permanently attached to rigid copper tubing with a powered crimper. The special fittings, manufactured with sealant already inside, slide over the tubing to be connected. Thousands of pounds-force per square inch of pressure are used to deform the fitting and compress the sealant against the inner copper tubing, creating a water-tight seal. The advantages of this method are that it should last as long as the tubing, it takes less time to complete than other methods, it is cleaner in both appearance and the materials used to make the connection, and no open flame is used during the connection process. The disadvantages are that the fittings used are harder to find and cost significantly more than sweat-type fittings.

Guangdong Shunde Seko Machinery & Technology Co.,Ltd.www.gdseko.com

Lucy Xie

sevvice@gdseko.com
Skype:Lucy
Xie,SEKO Machinery

Suggested Reading: The crisis in the Chinese steel industry

 

SEKO Machinery Company activities - Go to Dafu Mountain for a Barbecue

On Saturday November 21, 2015, our SEKO Machinery Company organized an outdoor activities, went to the Dafu Mountain of Guangzhou for a Barbecue. Colleagues know this news is very excited!

We set off at 8:30 in the morning from the SEKO Company on time, at 9 o 'clock arrived at the destination. Coming after we started to ride a bike, BBQ, trip on the lake, fishing, playing games and so on. Afternoon 5:00 we are ready to go back, everyone together at the entrance to the Dafu Mountain park to pose for photos and then returned to the company. The event everyone is having a great time!

The following is our photos:

Guangdong Shunde Seko Machinery & Technology Co.,Ltd.www.gdseko.com

Lucy Xie

sevvice@gdseko.com
Skype:Lucy
Xie,SEKO Machinery

Suggested Reading: EU new car registrations up 8.2 percent in January-October

 

The crisis in the Chinese steel industry

China's steel industry, the world's biggest, is in crisis.The disaster is the result of a combination of factors, including a slowing Chinese economy, falling commodity prices, and an industry loaded with debt. Earlier this month, state-owned enterprise (SOE) Sinosteel defaulted on a debt-interest payment of $315 million on bond notes maturing in 2017.It's a sign that, despite China's best efforts at fiscal-policy easing and pledges to reform "zombie" SOEs, the worst may be coming faster than policymakers expected.

1、The pride of old China

China's economy is trying to make the difficult transition from one based on investment to one based on domestic consumption, so it's useful to think of its economy in two parts: new China and old China. New China includes businesses in the services sector, like technology, retail, and banking. Old China includes the country's once booming property and construction sectors, manufacturing, and Chinese exports. It's important to note that old China — which includes a bunch of SOEs — is carrying a ton of debt. This has made companies less profitable as they spend significant sums of money making payments on that debt. As new China rises, old China is fading. But the rising is happening slowly, and the fading is happening faster than anyone thought. The Chinese government faces the colossal challenge of managing this transition without a string of credit events crippling the economy.

That's where the danger in China's steel industry comes in.

2、Asking for help

As Bloomberg reports, Zhu Jimin, the deputy head of the China Iron & Steel Association (CISA), said on Wednesday that collapsing demand is putting the entire industry at risk. From Bloomberg:

“Production cuts are slower than the contraction in demand, therefore oversupply is worsening,” said Zhu at a quarterly briefing in Beijing by the main producers’ group. “Although China has cut interest rates many times recently, steel mills said their funding costs have actually gone up.”

“China’s steel demand evaporated at unprecedented speed as the nation’s economic growth slowed,” Zhu said. “As demand quickly contracted, steel mills are lowering prices in competition to get contracts.”

Average steel prices hit an all-time low on July 9. CISA notes that in September, steel demand contracted 8.9% from the same time a year before, and medium and large steel mills have lost $4.4 billion in the first nine months of 2015.

3、The restructure

That means China may need to both clarify and speed up its five-year plan to reform state-owned organizations. Sinosteel's default indicates that it, and other SOEs carrying a ton of debt, may not be able to wait years for debt restructuring. "I don't know how the government can push ahead with the SOE reform, it will be extremely difficult," one senior executive with China's top aluminum producer, Chinalco, told Reuters. Winter is coming. That means construction will slow and demand for steel will weaken more. And when that happens, China will have to make a choice. Prop up its steel industry or make the rare decision to let companies collapse under the weight of their debt.

Guangdong Shunde Seko Machinery & Technology Co.,Ltd.www.gdseko.com

Lucy Xie

sevvice@gdseko.com
Skype:Lucy
Xie,SEKO Machinery

Suggested Reading: SEKO Machinery Company activities - Go to Dafu Mountain for a Barbecue

EU new car registrations up 8.2 percent in January-October

In October this year, new car registrations totaled 1,104,868 units in the European Union (EU), with an increase of 2.9 percent year on year, while demand for new passenger cars saw growth slowing down in all major markets, according to the latest figures issued by the European Automobile Manufacturers’Association (ACEA). In October, Italy (+8.6 percent), Spain (+5.2 percent), Germany (+1.1 percent), and France (+1 percent) were the major EU markets which recorded increases in new car registrations on year-on-year basis. Meanwhile, in the January-October period new passenger car registrations in the EU increased to 11,523,903 units, up 8.2 percent year on year. In this period, Spain saw an increase of 20.5 percent and Italy saw an increase of 14.7 percent, while new passenger car registrations in the UK rose by 6.4 percent, with registrations in France rising by 5.7 percent and with registrations in Germany up 5.1 percent, all year-on-year basis.

Guangdong Shunde Seko Machinery & Technology Co.,Ltd.www.gdseko.com

Lucy Xie

sevvice@gdseko.com
Skype:Lucy
Xie,SEKO Machinery

Suggested Reading: Material science of Alloy steel