Coffee Canister
When you enjoy the handmade coffee, coffee canister can help you storage the coffee bean and keep fresh. We have the air coffee canister which can keep the coffee bean and ground coffee fresh when storage for a long time. The coffee canister with the build-in Valve and calendar wheel, can help you record the date when storage .
The coffee canister set also very suitable for the Kitchenware ,can use for storage other thing, such as sugar, tea, spices, salt, pepper and so on.
Welcome to ask for more details and the style of the canisters you need. Will recommend the suitable one to you. Please don`t hesitate to contact us.
Description of Coffee Canister
Type: Single or Set
Material: Body: SS304/SS201/SS430/Iron
Lid and Handle: ABS/PP/SS410
Color :customized
Finishing: Satin polishing ,Mirror Polishing ,Color painting, Powder Coating
Logo: Laser logo, Etching logo, Silk printing logo, Embossed logo, Decal logo
MOQ : 2000 PCS/Set
Packaging : White box, Mail box or Customized package
Sample Time : 7~10 days
Lead Time :60 days after have the deposit
Payment: T/T ,L/C or others
Payment term: 30% deposit before production and 70 % balance against the copy B/L
FAQ:
1:How can I get the sample?
We can provide the sample for customers to check the quality.
Please kindly provide the delivery info for calculate the sample cost. If you have DHL /TNT/UPS/FEDEX account, please also kindly provide it to us.
You can do the payment of sample via T/T and PayPal.
2:How about the sample time?
Usually the sample time is 7~10 days after have the sample cost.
3:How long will it take for mass production?
Usually 45~60 days after have the deposit.
4:Can we have our logo or company name to be printed on your products or the package?
Welcome OEM.
5:what certificate can you provide?
CE,CB,GS,FDA,LFGB,ROHS are available here.
6:How can we get your monthly new products announcement?
Please join our mailing lists.
Milk Jug,Airtight Canister,Tea Coffee Sugar Canisters,Coffee Container Jiangmen Wellway Houseware Co.,Ltd , https://www.wellway-jm.com
Analysis of Stainless Steel Butterfly Valve Corrosion and its Solution>
Abstract: Stainless steel butterfly valves rust during use. After metallographic analysis, dyeing test face, heat treatment test face, SEM and other test analysis, we found that the key factor of material corrosion is carbide precipitation along the grain boundary in the material to form a chromium-depleted zone, resulting in stainless steel butterfly valve corrosion. Keywords: butterfly valve; corrosion; carbide material CF8M stainless steel butterfly valve rust phenomenon occurs during use. Austenitic stainless steel after normal heat treatment, the organization should be austenitic at room temperature, corrosion resistance is very good. In order to analyze the cause of corrosion of the butterfly valve, samples were taken for analysis. A test method Sampling for chemical composition analysis (to determine compliance with the standards), metallographic examination, heat treatment process test and SEM analysis. 2 test results and analysis 2.1 Chemical composition Chemical composition analysis results and standard components, see "Table 1". Composition C Si Mn PS Cr Ni Mo CF8M 0.08 1.5 1.5 0.04 0.04 18 ~ 21 9 ~ 12 2 ~ 3 Butterfly valve 0.10 0.60 0.61 0.024 0.009 18.05 9.71 1.45 2.2 Metallographic analysis Metallographic specimens were cut from a butterfly valve where corrosion occurred, After grinding polishing, corrosion with aqueous solution of ferric chloride, Neophot-32 metallographic microscope was observed and analyzed, the microstructure composed of austenite and another precipitate composition. In theory, the normal austenitic stainless steel after heat treatment should be uniform austenite. Another precipitate appears in the organization what is tissue, there are two judgments: one is σ phase, the other is carbide. The conditions for the formation of sigma phase and carbides are different, but all have one common feature that is the sensitivity of austenitic stainless steel to intergranular corrosion. First, the use of variegated σ phase identification. Alkaline red blood salt solution (red blood salt 10g + potassium hydroxide 10g + water 100ml), the sample boiled in the reagent for 2 ~ 4 min, ferrite yellow, carbide corrosion, austenitic Bright color, σ phase from brown to black. Using the above method, the sample cut from the butterfly valve was boiled in alkaline aqueous solution of erythritol for 4 min, and then observed under the microscope. The precipitates retained the original morphology and no obvious change was found. So decided to use heat treatment method to further test face analysis. 2.3 Heat Treatment Test Analysis σ phase is a kind of iron-chromium atomic ratio roughly equal intermetallic compounds. Chemical composition, ferrite, cold deformation, temperature changes have varying degrees on the formation of sigma influence. Using staining test, under the microscope to observe the precipitation phase change is not obvious, so the use of heat treatment method to identify σ phase. For information, sigma phase is usually formed in the long-term aging at 500 ~ 800 ℃. This is because aging at higher temperatures favors the diffusion of chromium. Then high temperature heating σ phase will begin to dissolve, dissolved at least over at 920 ℃. It is eliminated by heating at a steady temperature above the sigma phase. The time required to form the sigma phase is long, but the elimination of the sigma phase usually takes only a short time to heat. According to this theory, a heat treatment process was developed to see if the precipitates in the tissue could be eliminated. The sample cut from the butterfly valve was heated to 940 ° C for 30 min and then observed on a Neophot-32 metallurgical microscope. The precipitated phase in the heat-treated sample was not eliminated and the original morphology was maintained, which proves that the precipitated phase in the microstructure may not be σ phase. 2.4 SEM analysis sometimes appear in the steel sigma phase, using any staining method are unable to distinguish the color, can be used to identify the SEM analysis. Because it is known that the σ phase is a compound of iron and chromium, the content of chromium is 42% to 48%. The unknown phase components and their contents are determined by qualitative and quantitative EDS analysis to determine the unknown phase. The results of the micro-area quantitative analysis of the matrix and the precipitated phase are shown in Table 2. Table 2 EDS Quantitative Analysis Results /% Composition Fe Cr Ni Mo Si Mn Substrate 70.463 16.365 10.211 1.239 0.466 1.257 Precipitated Phase 56.908 33.629 3.681 4.835 0.040 0.907 EDS analysis revealed that the chromium content of the precipitates was 33.6% which was significantly higher The content of Cr in the matrix is ​​16.3%, while the content of chromium in the σ phase is 42% ~ 48%, thus denying the precipitated phase as σ phase. Comprehensive staining test face, the result of heat treatment test, that the stainless steel butterfly valve tissue is not precipitated phase σ phase. SEM analysis of precipitated phase is a eutectic structure, based on chromium carbide. Stainless steel butterfly valve material is nickel-chromium austenitic stainless steel, this material is generally used in solution state. At room temperature, its structure is austenitic, austenitic stainless steel in a wide range of corrosive media, especially in the atmosphere has good corrosion resistance. The reason for the corrosion of the stainless steel butterfly valve is as follows: (1) Based on the results of the above tests, it can be judged that the precipitated phase in the butterfly valve material is not σ phase, so the corrosion of the butterfly valve is not caused by σ phase. ② SEM observation confirmed that the precipitated phase of the butterfly valve is chromium-based carbide, which is distributed along the grain boundary. EDS analysis results show that the distribution of chromium in the grain boundary carbide was significantly higher than the matrix. This carbide is M <sub> 23 <6> subtype. With the precipitation of carbides, but also without the proliferation of chromium added to the form of chromium carbide along the austenite grain boundary precipitation, the formation of chromium-depleted areas around the carbide, austenitic stainless steel grain boundaries easily corroded. Therefore, precipitation along the grain boundary carbide is the main reason for the butterfly valve corrosion. ③ after solution treatment of austenitic stainless steel, due to the high temperature heating most of the carbides are dissolved, austenitic saturated with a large amount of carbon and chromium, and because of the subsequent rapid cooling and fixed, the material is very Business corrosion resistance. Therefore, the heat treatment process should be strictly controlled, the workpiece is heated to high back solution treatment, the carbide fully dissolved, and then quickly cooled to obtain a homogeneous austenitic tissue. After solution treatment, with slow cooling, chromium carbide will precipitate along the grain boundary during cooling, resulting in a decrease of corrosion resistance of the material. More Tags Valve Technical Articles Component C Si Mn PS Cr Ni Mo CF8M 0.08 1.5 1.5 0.04 0.04 18-21 21-12 12-3 Butterfly Valve 0.10 0.60 0.61 0.024 0.009 18.05 9.71 1.45 Composition Fe Cr Ni Mo Si Mn Matrix 70.463 16.365 10.211 1.239 0.466 1.257 Precipitates 56.908 33.629 3.681 4.835 0.040 0.907