跳至主要内容

The material of standardized cookware in EN60350-2 version 2018 and version 2013

The standardized cookwares referred in this article are designed according to EN(IEC)60350-2 table (Z)3. The diameter of the cookware bottom (outside), diameter of the lid, lid hole circle diameter, number of holes on the circle, total cookware height (outside) and flatness of cookware bottom are specified in table (Z)3. The materials of side wall, cookware bottom and lid are different.

In version 2018, the side wall of cookware is made of stainless steel AISI type 304, the cookware bottom is made of stainless steel AISI type 430, and and the lid is made of aluminium.

In version 2013, the side wall of cookware is made of 1.4301 stainless steel, the cookware bottom is made of stainless steel 1.4016, and the lid is made of aluminium.

Items

Version 2018

Version 2013

Remark

material

thickness

material

thickness

Side wall

 stainless steel AISI  304

1mm±0.05mm

1.4301 stainless steel

1mm±0.05mm

Cylindrical without handles or protrusions.

Cookware bottom

stainless steel AISI  430

6mm±0.2mm

1.4016 stainless steel

6mm±0.05mm

1. the surface shall be shiny.

2. A convex shaped bottom plate is not allowed

lid

aluminium

2mm±0.05mm

luminium

2mm±0.05mm

the flat lid is adapted to accommodate a temperature sensor in the center.

 

From the description, the user may think that the materials mentioned in the 2 versions are different, but they are the same in fact, just the material has difference name in different countries. 1.4301 stainless steel is AISI/SAE 304. 1.4016 stainless steel is AISI/SAE 430.

 

However, the tolerance range for the bottom thickness is different in the two versions. In version 2018, the bottom thickness is 6mm±0.2mm, but in version 2013, the bottom thickness is 6mm±0.05mm. The standardized cookwares made by Pego Electronics are produced in accordance with stricter tolerance ±0.05mm, users can rest assured to place orders.

http://www.pegotester.com/stainless_steel_standard_cooking_test_pots.html#_pp=0_393_8





评论

此博客中的热门博文

JIS D0203 rain nozzle and spray nozzle test chamber

https://www.pegotester.com/JISD0203_rain_and_spray_test_chamber.html The spray nozzle and rain nozzle test chamber is designed to meet the test requirements of JISD0203 R1/R2 rain test and S1/S2 spray test. The rain nozzle has 2 holes and spray nozzle has 40 holes. Type Symbol Test Purpose Test Method Rain Test R1 Auto parts against water direct contact water pressure: 0.01Mpa, water flow: 1.9L/min, water temperature: ordinary temperature, test time: 10min R2 Auto parts against rain or spray water   indirect contact water pressure: 0.03Mpa, water flow: 3.2L/min, water temperature: ordinary temperature, test time: 10min Spray Test S1 Auto parts against rain or jet water direct contact water pressure: 0.10Mpa, water flow: 24.5L/min, water temperature: ordinary temperature, test time: 30min S2 Auto parts against riptide water pressure: 0.30Mpa, water flow: 39.2L/min, water temperature: ordinary temperature, test time: 1h  

UL746A High Current ARC Ignition Test Apparatus 32.5A/COSφ0.5

UL746A High Current ARC Ignition Test Apparatus 32.5A/COSφ0.5   1.  Introduction: The high current arc ignition tes t apparatus is designed according to  IEC60950-1:2001  clause 4.7.3.6 , BS/EN60950-1:2001, BS7002:2001, GB4943-2001 and UL746A, IEC60947.1:1999, GB/T14048.1-2000, IEC730.1:1993, GB14536.1-1998 and etc..  It ’ s used to measure and assess  solid insulating material against to resistance to ignition from arcing electrical sources. A power 240V(AC)/60Hz is to be supplied to the test electrodes  (fixed electrode and movable electrode) , a series (inductive-resistive) air core impedance is to be provided to yield a short circuit current of 32.5A and a power factor of 0. 5. The sample is be to positioned with the electrodes making initial contact on the surface of the sample, the circuit is to be energized and the cyclic arcing started. The timing of arcs is to be adjusted to a rate of 40 arcs/min, the rate of electrode separation is to be 254±...