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收藏本站 提供:電熱管價格和電熱管規格型號大全,還提供電熱管接線、選型的問題,特耐佳電加熱器高端電熱供應商。

High density cartridge heaters

型號:未知

報價:面議

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產品介紹

用戶評價

今日出廠產品展示及部分報價

高密度加熱器
在高密度版本加熱器提供相對于其大小非常高的功率和提供在元件的外鞘的熱分布均勻。墨盒加熱器有振動和沖擊的高耐受性,是由密閉的顯著提高他們的工作生活。IHP賣加熱器在所有版本。元素通常用于加熱的工具,即加熱金屬對象和安裝經常在鉆孔。我們根據您的要求設計的終端,線程,板,法蘭,等。
技術數據
熱強度(高密度)高達60瓦/厘米2
功率取決于尺寸
漏電流(冷態)< = 0,1ma在242v
絕緣值(冷態)5分鐘歐姆500W分鐘
介電強度1500V 1 /賽格
最高工作溫度750°C
長度誤差±1.5 %
容錯直徑0.01 – 0,06mm H7
公差連接長度+ / – 15mm
功率公差+ 5% – 10%
寒冷地區5-25mm標準
建設
IHP高密度加熱器正在使用的方法,我們的壓縮所有內部組件氧化鎂達到所有墨盒壽命長制造。加熱絲螺旋纏繞在硬的陶瓷缸或放置在孔內根據熱強度的陶瓷缸。盤、陶瓷頭被放置在兩端的隔離和保護器。整個裝置密封在金屬管和裝在純氧化鎂以確保一切完全絕緣。墨盒加熱器被壓縮到正確的尺寸和公差。
焊接防水基礎承受壓力可達60公斤/厘米2。
校準的不銹鋼管AISI 304 / 316 / 321 /耐熱鎳鉻鐵合金。
陶瓷絕緣子。
純氧化鎂。
80 / 20鉻鎳加熱絲,熔點1400°C.
陶瓷型芯。
硬質瓷頭。
導線。
熱折射膏。
應用實例
加熱工具
加熱固體
加熱流體
模具
熔化的
硬化
硫化
焊接
醫療和實驗室設備
IHP高密度加熱器是由承受最惡劣的工作條件。振動,潮濕的環境中,直接流體,頻繁的擴張和400°C和750 C之間的溫度下所需的°。
當固體,氣體和液體是由電能加熱的過程一般是由傳導進行了。如果墨盒加熱器與工件直接接觸被加熱,它是一種行之有效的方法,快速的傳導傳熱(任何固體,氣體或液體)。
功率表
?x長度(mm)冷態熱態變化(%)
功率在230V(W)電阻(W)功率230V(W)電阻(W)
?10×80 – 315 167,94 303.76 174,15 7
?10×100 – 400 132,25 136,34 3,1 388
?10×130 500 105,80 487.33 108,55 – 2
?12×80 400 132,25 388.37 136,21 – 3,0
?12×100 500 105,80 489.72 108,02 – 2
?12×130 800 66,13 785.80 67,32 – 1.8
?16×80 630 83,97 617.97 85,64 – 0
?16×100 1000 985.29 52,90 53、69 – 1
?16×130 – 1100 48,09 1090.27 48,52 0,9
?20×100 1000 52,90 989.90 53,44 – 1,0
?20×130 1250 42,32 1240.33 62,65 – 0,8
管規格
對IHP標準加熱器主要采用不銹鋼AISI 321不銹鋼管鞘。我們還提供不銹鋼管在AISI 304,AISI 316和Incoloy取決于應用程序。
DIN X5 CrNi 169×10 crniti 185 X5 CrNiMo Incoloy 182
AISI 304 321 316
鐵>72>72>67>6 / 10
c<<=0<= = 0,07 0,07小于0,2
CR 17 / 20 17 / 19 / 14 / 7 18,5 16.5
鎳+ CO 9 / 9 / 12 /花費14.6 11.5 11.5 82
錳≤2,0≤2,0≤1 –
鉬- 2,5 / 3,0—
硅≤1,0≤1,0≤1,0≤1,0
P=0045<=0045<=0045<=0.5
<=0.03<=0.03<=0.03<=0.03
Cu<0<2 – < 0,7
Ti-0.5——
熱絲Ni Cr 80 / 20
加熱絲加熱元件本身。實踐證明,強大的和可靠的,通常是用在許多加熱產品。
熱絲Ni Cr 80 / 20
特定重量的8.3
熱傳導20°C 0.35-0.0031
20°比熱C 0.11
熔點1400°C
牽引阻力65-80
彈性極限30-35.
布氏硬度130-150
延長的長度為25-30% 200毫米
約% 60-75%收縮
連續工作1200°C的最高溫度
具體存在的20°C chmx(2分鐘/米)1,09 + / – 5%
膨脹系數線性×10-6 20-250°C = 15
20-1000°C = 18
Ni80 Cr20組成
密度835 G/CM3
結構奧氏體

High density cartridge heaters

Cartridge heaters in high density versions deliver a very high power relative to their size and provide uniform heat distribution across the element’s outer sheath. The cartridge heaters have high tolerance to vibration and impact and are made airtight which significantly increases their working life. IHP sells cartridge heaters in all versions. The elements are typically used for heating tools i.e. heating of metal objects and mounted often in drilled holes. We design according to your demands regarding terminations, threads, plates, flanges, etc.

Technical data

Heat intensity (high density) Up to 60W/cm2
Power Depends on dimension
Current leakage (cold state) <= 0,1mA at 242V
Insulation value (cold state) 5 Min Ohm 500W Min
Dielectric strength 1500V 1/seg
Working temperature Max 750°C
Tolerance length +/- 1,5%
Tolerance diameter -0,01 to -0,06mm H7
Tolerance connection length +/- 15mm
Power tolerance + 5% – 10%
Standard cold areas 5-25mm

Construction

IHP high density cartridge heaters are manufactured using a method where we compress all internally components with magnesium oxide to achieve a long life for all cartridges. A heating wire is spirally wound on to a hard ceramic cylinder or placed in holes within the ceramic cylinder depending on the heat intensity. Discs and ceramic heads are placed in both ends to isolate and protect the heater. The whole unit is sealed in a metal tube and packed in pure magnesium oxide to insure that everything is completely insulated. The cartridge heater is then compressed to the correct dimensions and tolerances.

Cartridge Heaters Construction

  1. Welded water proof base to withstand pressure up to 60kg/cm2.
  2. Calibrated stainless steel tube in AISI 304/316/321/INCOLOY.
  3. Ceramic disc insulator.
  4. Pure magnesium oxide.
  5. Nickel-chrome 80/20 heater wire, melting point 1400°C.
  6. Ceramic core.
  7. Hard ceramic head.
  8. Conductor lead.
  9. Heat refracting paste.

Application examples

  • Heating of tools
  • Heating of solids
  • Heating of fluids
  • Molds
  • Melting
  • Hardening
  • Vulcanization
  • Welding
  • Medical and laboratory equipment

IHP high density cartridge heaters are made to withstand the toughest working conditions. Vibrations, moisture environments, direct fluid, frequent expansion and where temperatures between 400°C and 750°C are required.

When solids, gases and fluids are to be heated by electric energy the process is generally carried out by conduction. It is a proven method to quickly transmit heat by conduction if the cartridge heater is in direct contact with the piece to be heated (any solid, gas or fluid).

Cartridge Heater

Power table

? x length (mm)
Cold state
Hot state
Variation (%)
Power at 230V (W)
Resistance (W)
Power at 230V (W)
Resistance (W)
?10 x 80
315
167,94
303.76
174,15
-3,7
?10 x 100
400
132,25
388.00
136,34
-3,1
?10 x 130
500
105,80
487.33
108,55
-2,6
?12,5 x 80
400
132,25
388.37
136,21
-3,0
?12,5 x 100
500
105,80
489.72
108,02
-2,1
?12,5 x 130
800
66,13
785.80
67,32
-1,8
?16 x 80
630
83,97
617.97
85,64
-2,0
?16 x 100
1000
52,90
985.29
53,69
-1,5
?16 x 130
1100
48,09
1090.27
48,52
-0,9
?20 x 100
1000
52,90
989.90
53,44
-1,0
?20 x 130
1250
42,32
1240.33
62,65
-0,8

Tube specification

For IHP standard cartridge heaters we mainly use stainless steel AISI 321 as tube sheath. We also provide stainless steel tubes in AISI 304, AISI 316 and Incoloy depending on the application.

DIN
X5 CrNi 169
X10 CrNiTi 185
X5 CrNiMo 182
Incoloy
AISI
304
321
316
Fe
>72
>72
>67
>6/10
C
<=0,07
<=0,1
<=0,07
<0,2
Cr
17/20
17/19
16,5/18,5
14/7
Ni+Co
9/11,5
9/11,5
12/14,6
82
Mn
<=2,0
<=2,0
<=1
Mo
2,5/3,0
Si
<=1,0
<=1,0
<=1,0
<=1,0
P
<=0,045
<=0,045
<=0,045
<=0,5
S
<=0,03
<=0,03
<=0,03
<=0,03
Cu
<0,2
<0,2
<0,7
Ti
0,5

Heating wire Ni-Cr 80/20

The heating wire is the heating element itself. It is proven, strong and reliable and is typically used in many heating products.

Heating wire Ni-Cr 80/20
Specific weight
8.3
Thermic conductivity 20°C
0.35-0.0031
Specific heat 20°C
0.11
Melting point
1400°C
Resistance to traction
65-80
Elasticity limit
30-35
Brinell scale hardness
130-150
Lengthening in % over 200 mm of length
25-30%
Contraction in approximately %
60-75%
Maximum temperature of continuous working
1200°C
Specific existence 20°C Chmx (min. 2/m)
1,09 +/-5%
Expansion coefficient linear x 10-6
20-250°C = 15
20-1000°C = 18
Composition
Ni80 Cr20
Density g/cm3
835
Structure
Austenitic

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女人阴性道图片真人18