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DALI ELECTRONICS
India
USD
50.0 - 200.0/pcs
MµMetal / MuMetal / µMetal / HyMu80 / Nickel Iron Molybdenum / Permalloy 80 / Super Muniperm / FeNi80Mo5 / Super MuMetal / SofMag80 / Supermalloy / Aperam / Permimphy / Permalloy C / EFI Alloy 79 / Magnifer 7904 / Hipernom / Moly-Permalloy / Amumetal
International standards: ASTM A 753, DIN 17405, IEC 404, JIS C 2531
Chemical Composition:
Nickel 80%, Molybdenum 5%, Iron Balance, Some impurities
Physical Properties
Metric
English
Density
8.74 g/cc
0.316 lb/in³
Mechanical Properties
Metric
English
Hardness, Brinell
105 - 290
105 - 290
Tensile Strength at Break
530 - 900 MPa
76900 - 131000 psi
Tensile Modulus
190 - 221 GPa
27600 - 32100 ksi
Izod Impact, Unnotched
0.420 - 1.00 J/cm
0.787 - 1.87 ft-lb/in
Electrical Properties
Metric
English
Electrical Resistivity
0.0000550 - 0.0000620 ohm-cm
0.0000550 - 0.0000620 ohm-cm
Magnetic Permeability
min 60000
min 60000
max 240000
max 240000
Magnetic Coercive Force, Hc
0.0126 Oe
0.0126 Oe
Magnetic Remanence, Br
3700 Gauss
3700 Gauss
Curie Temperature
380 °C
716 °F
Thermal Properties
Metric
English
CTE, linear
13.0 µm/m-°C
7.22 µin/in-°F
Thermal Conductivity
30.0 - 35.0 W/m-K
208 - 243 BTU-in/hr-ft²-°F
Component Elements Properties
Metric
English
Iron, Fe
14 %
14 %
Molybdenum, Mo
4-6 %
4-6 %
Nickel, Ni
79-81 %
79-81 %
Descriptive Properties
Saturation Induction (T)
0.77
Mu-metal is a nickel–iron soft magnetic alloy with very high permeability, which is used for shielding sensitive electronic equipment against static or low-frequency magnetic fields.
Mu-metal typically has relative permeability values of 80,000–100,000 compared to several thousand for ordinary steel. It is a "soft" magnetic material; it has low magnetic anisotropy and magnetostriction, giving it a low coercivity so that it saturates at low magnetic fields. This gives it low hysteresis losses when used in AC magnetic circuits. mu-metal has more advantage as it is more ductile and workable, allowing it to be easily formed into the thin sheets needed for magnetic shields.
Mu-metal objects require heat treatment after they are in final form—annealing in a magnetic field in hydrogen atmosphere, which increases the magnetic permeability about 40 times. The annealing alters the material's crystal structure, aligning the grains and removing some impurities, especially carbon, which obstruct the free motion of the magnetic domain boundaries. Bending or mechanical shock after annealing may disrupt the material's grain alignment, leading to a drop in the permeability of the affected areas, which can be restored by repeating the hydrogen annealing step.
Magnetic shielding
The high permeability of mu-metal provides a low reluctance path for magnetic flux, leading to its use in magnetic shields against static or slowly varying magnetic fields. Magnetic shielding made with high-permeability alloys like mu-metal works not by blocking magnetic fields but by providing a path for the magnetic field lines around the shielded area. Thus, the best shape for shields is a closed container surrounding the shielded space. The effectiveness of mu-metal shielding decreases with the alloy's permeability, which drops off at both low field strengths and, due to saturation, at high field strengths. Thus, mu-metal shields are often made of several enclosures one inside the other, each of which successively reduces the field inside it. Because mu-metal saturates at such low fields, sometimes the outer layer in such multilayer shields is made of ordinary steel. Its higher saturation value allows it to handle stronger magnetic fields, reducing them to a lower level that can be shielded effectively by the inner mu-metal layers.
Popular Shielding Applications of MuMetal
· Shielding of RF magnetic fields
· cryogenic Shields
· Shielding from natural Earth Magnets
· cathode ray tubes (CRTs) used in oscilloscopes
· sensitive electronic equipment against magnetic field
· AC magnetic circuits
· shield against electric field
· Mobile Networks & Antennas Rays
· Shielding of SQUID – Superconducting Quantum Interference Device -
· telegraph cables
· Electric power transformers, which are built with mu-metal shells to prevent them from affecting nearby circuitry. high quality but low noise audio frequency transformers.
· Hard disks, which have mu-metal backings to the magnets found in the drive to keep the magnetic field away from the disk
· Cathode-ray tubes used in analogue oscilloscopes, which have mu-metal shields to prevent stray magnetic fields from deflecting the electron beam
· Magnetic phonograph cartridges, which have a mu-metal case to reduce interference when LPs are played back
· Magnetic resonance imaging equipment
· The magnetometers used in magnetoencephalography and magnetocardiography
· Photomultiplier tubes
· Vacuum chambers for experiments with low-energy electrons, for example, photoelectron spectroscopy.
· Superconducting circuits and especially Josephson junction circuits
· Fluxgate magnetometers and compasses as part of the sensor
· ground fault interrupter cores
· anti-shoplifting devices
· tape recorder head laminations
· magnetometer bobbin cores
Frequently Asked Questions (FAQ)
What is a magnetic field?
We are surrounded by magnetic fields (both AC and DC) from the earth’s magnetic field to man-made sources such as magnets, motors and transformers. When a piece of sensitive equipment is being affected by these fields we need to produce a shield. Examples that are affected are cathode ray tubes, photomultiplier tubes, audio transformers, scanning electron microscopes, position sensors.
How does a magnetic shield work?
There is no known material that can block magnetic fields without itself being attracted to the magnetic force. A magnetic shield acts as a kind of sponge redirecting the magnetic field around the shield instead of passing through the sensitive instrument which is being shielded. To be a good magnetic shielding material it must have a high permeability which means that the magnetic field lines are strongly attracted to the shielding material.
The most common shielding alloys are chosen based on the intensity of the magnetic field. If the magnetic field is too high for the material chosen it will saturate and become ineffective. In this case you can use a multi layer shield with a combination of the different alloys. Alloys should also have a very low remanence to prevent them becoming permanently magnetised.
What is the best shape for a shield?
The most efficient shape is spherical but this is very difficult to produce and largely impractical in most shielding applications. The next best is a cylinder with closed ends. These end caps significantly increase the shielding attenuation. This is followed by a box shape but the corners need to have a large bend radius to minimise flux leakage. If possible do not use a flat sheet .
What is the difference between RF and Magnetic Shielding?
Radio Frequency shielding is required to stop high frequency fields (> 100 kHz) and copper, aluminium, metallised plastics are normally used because they are conductive and have very little permeability. Magnetic shielding is typically found in the 30 – 300 Hz AC range.
What is the difference between DC and AC?
DC is direct current that flows in one direction only such as the fields emitted from the Earth or produced by magnets and some motors. AC is alternating current that reverses its direction over a short period and these fields are generated by typical 50-60 Hz electric power equipment. Magnetic shielding is effective for both of these types.
What is magnetic permeability?
It is a materials ability to absorb magnetic flux. It is a ratio of flux density to field strength. The higher the permeability the better the magnetic shield attenuation performance.
What is field attenuation?
This is also known as the shielding factor (S) and is a ratio of the magnetic field strength outside of the magnetic shield (Ha) and the resultant field on the inside of the shield ie Ha/Hi (no units) or S = 20 x log(Ha/Hi) (Db). There are various formula based on the permeability of the material, the shape and size of the shield and the material thickness. In most cases these formulae are only approximate and are for DC fields only.
For a closed shielding can :
S = 4/3 X (Mu x d/D) where Mu :
The permeability(relative) d : material thickness D : Shielding Diameter
For a long hollow cylinder in a magnetic transverse field :
S = Mu x d/D For a cubic shielding box : S = 4/5 X (Mu x d/a) a : box side length.
In the case of multiple layer shields with air gaps provided by insulating spacers the shielding factors of the individual shields are multiplied together resulting in excellent shielding factors.
For a double layer shield : S= S1 x ((S2 x (2 x change in diameter /diameter) )
Why are both, FeNi48 and MuMetal used together?
It is has got a very high level of permeability but a relatively low level of saturation whereas , FeNi48 has a lower level of permeability but a level of higher saturation. FeNi48 is used closest to the very strong field to protect the material according to Mumetal from saturation.
Why is a final heat treatment required for Mµ-Metal, FeNi48 and pure iron?
After plastic deformation a high temperature heat treatment is required to rearrange the crystal structure as well as allowing the grains to grow. Without this final heat treatment the magnetic properties and the shielding attenuation will be much reduced.
Do cryogenic temperatures affect the performance of MuMetal?
MuMetal is affected by cryogenic temperatures. The saturation induction remains the same but the permeability decreases. At cryogenic temperatures we need to use a special cryogenic MuMetall, which we also supply.
Can you use magnetic shielding materials at high vacuum?
MuMetal is similar to stainless steel so out gassing is minimal.
Can a shield be re heat treated?
Yes it can be if it has received knocks or if there are concerns about the shields shielding ability.
Do you carry stocks of shielding alloys?
Yes. We carry and sell a large range of stock including sheets and coil from 0.1mm to 5mm in thickness in MuMetal quality.
Can you weld material µ-Metal?
Yes without a problem but it must be fully heat treated after welding.
What is the Minimum Order Quantity required to buy?
If we have material in stock, there is no MOQ. We can give minimum of 300 mm / 1 feet too. But if we do not have stock, it will depend on the size and quantity.
With Best Regards,
Kairav Pankaj Domadia
DALI ELECTRONICS
India
USD
20.0 - 50.0/pcs
Beryllium copper, also known as copper beryllium, BeCu or beryllium bronze, is a metal alloy of copper and 0.5 to 3% beryllium, and sometimes with other alloying elements. There are a few alloys of Beryllium Copper but the most commonly used is “ALLOY 25” which available with us in ready stock.
ALLOY 25
Alloy 25 is also known as “CuBe2, C17200, BeCu, CDA 172, CB101, ISO CuBe2, CEN CW101C, A4/2, beryllium bronze”.
This alloy which contains approximatively 2% of beryllium and achieves the highest mechanical strength and hardness after heat treatment of all copper beryllium alloys. In soft or slightly re-rolled condition, it exhibits excellent bending behaviour. It distinguishes itself by high fatigue strength, outstanding relaxation resistance at elevated temperatures and a unique combination of high strength and excellent electrical conductivity.
Similarly, we also have CuCrZr [C18150], CuNiBe / CuNi2Be [C17510], CuCo2Be [C17500], etc
PROPERTIES
High Conductivity
Elevated Temperature Strength
Reflectivity
Dimensional Stability
Highly Machinable
High Tensile Upto 300 Ksi.
Non Sparkling
Non Magnetic
Galling / Water Resistance
Strength And Toughness In Cryogenic Conditions
Combination Of High Electrical And Thermal Conductivity,
High Strength And Hardness
Non-Magnetic
Good Corrosion Resistance And Fatigue Resistance
High Melting Point
Excellent Metalworking, Forming And Machining Qualities
Ductile, Weldable, And Machinable Alloy
Resistant To Non-Oxidizing Acids (Eg: Hydrochloric Acid, Carbonic Acid)
Fast Heating
Fast Cooling
Anti Galling
Nozzles for Injection Machine
APPLICATIONS
Plastic Injection and Moulding Inserts
Metal Die Casting
Plunger Tips
Spot Welding & Resistant Welding Electrodes
Lightweight Structural Components In The Defense And Aerospace Industries In High-Speed Aircraft, Missiles, Space Vehicles And Communication Satellites.
Springs & Spring Wires
Load Cells
Non-Sparking Tools in explosive potential environments
Electrical Contacts In Switches & Connectors
Structural Support For Printed Circuit Boards
Microwave
Tools For Hazardous Environments,
Musical Instruments, Precision Measurement Devices, Bullets, And Aerospace
Low-Current Contacts For Batteries
Relays
Bearings for Low Wear & Tear
Watch Parts Such As Wheels, Watch Hands, Balances, Levers, etc
Weighing Scale Balances
Electro Magnetic (Emi) Shielding
Golf Clubs On Wedges And Putters
Electrical Engineering
Automotive Connections
Aerospace Systems
Core Pins
Pressure Housing For Precision Magnetometers And Instruments
Retractable Antennas
Telecommunication Cables
Miniature Machine Electronic Sockets
CHEMICAL COMPOSITIONS
Element
Beryllium
Nickel
Co + Ni
Co+Ni+ Fe
Co
Copper
Grade
Be
Ni
Cu
BeCu
C17200
1.80~ 2.20
0.20
0.60
Bal
CuCo2Be
C17500
0.40~0.70
2.40~2.70
Bal
CuNi2Be
C17510
0.20~0.60
1.40~2.20
Bal
CuCo1NiBe
CuCo1Ni1Be
0.40~0.70
0.80~1.30
0.80~1.30
Bal
Also Available CuCrZr [C18150] – Cr 0.5~1.5, Zr 0.05~0.25, Cu Bal.
Mechanical and Electrical PropertiesBeryllium Copper Rod, Bar and Tube
Alloy
Temper(*)
HeatTreatment
Outside Diameteror DistanceBetween ParallelSurfacesinch
TensileStrengthksi
YieldStrength0.2% offsetksi
Elongation%
HardnessRockwellB or CScale
ElectricalConductivity% IACS
C17200
andC17300
A (TB00)
all sizes
60-85
20-35
20-60
B45-85
15-19
H (TD04)
up to 3/8
90-130
75-105
8-30
B88-103
15-19
over 3/8 to 1
90-125
75-105
8-30
B88-102
15-19
over 1 to 3
85-120
75-105
8-20
B88-101
15-19
AT (TF00)
3 hr600°F-625°F
up to 3
165-200
145-175
4-10
C36-42
22-28
over 3
165-200
130-175
3-10
C36-42
22-28
HT (TH04)
up to 3/8
185-225
160-200
2-9
C39-45
22-28
2-3 hr600°F-625°F
over 3/8 to 1
180-220
155-195
2-9
C38-44
22-28
over 1 to 3
175-215
145-190
4-9
C37-44
22-28
C17000
A (TB00)
all sizes
60-85
20-35
20-60
B45-85
15-19
H (TD04)
up to 3/8
90-130
75-105
8-30
B92-103
15-19
over 3/8 to 1
90-125
75-105
8-30
B91-102
15-19
over 1 to 3
85-120
75-105
8-20
B88-101
15-19
AT (TF00)
3 hr600°F-625°F
up to 3
150-190
125-155
4-10
C32-39
22-28
over 3
150-190
125-155
3-10
C32-39
22-28
HT (TH04)
2-3 hr600°F-625°F
up to 3/8
170-210
145-185
2-5
C35-41
22-28
over 3/8 to 1
170-210
145-185
2-5
C35-41
22-28
over 1 to 3
165-200
135-175
4-9
C34-39
22-28
C17510
A (TB00)
all sizes
35-55
10-30
20-35
B20-50
20-30
H (TD04)
up to 3
65-80
50-75
10-15
B60-80
20-30
AT (TF00)
3 hr900°F
all sizes
100-130
80-100
10-25
B92-100
45-60
HT (TH04)
2 hr900°F
up to 3
110-140
95-125
5-25
B95-102
48-60
*ASTM alphanumeric code for product tempers.
Mechanical and Electrical Properties for Beryllium Copper Strips & Foils
Alloy
Temper
HeatTreatment
TensileStrengthkg/mm2
YieldStrength0.2 % offsetkg/mm2
Elongation%
FatigueStrengthkg/mm2, R= -1(108 cycles)
Hardness
ElectricalConductivity% IACS
DiamondPyramid
RockwellB or C
RockwellSuperficial
C17200
A Dead Soft (TB00)
---
42 - 53
19 - 26
35-65
21 - 25
90-144
B45-78
30T46-67
15-19
A Planished (TB00)
---
42 - 55
21 - 39
35-60
21 - 25
90-144
B45-78
30T46-67
15-19
1/4 H (TD01)
---
52 - 62
42 - 57
20-45
22 - 25
121-185
B68-90
30T62-75
15-19
1/2 H (TD02)
---
59 - 71
52 - 67
12-30
22 - 27
176-216
B88-96
30T74-79
15-19
H (TD04)
---
70 - 85
63 - 81
2-18
25 - 27
216-287
B96-102
30T79-83
15-19
AT (TF00)
3 hr. at 315 °C
116 - 138
98 - 124
3-15
28 - 32
353-413
C36-42
30N56-62
22-28
1/4 HT (TH01)
2 hr. at 315 °C
123 - 145
105 - 131
3-10
28 - 32
353-424
C36-43
30N56-63
22-28
1/2 HT (TH02)
2 hr. at 315 °C
130 - 152
112 - 138
1-8
30 - 33
373-435
C38-44
30N58-63
22-28
HT (TH04)
2 hr. at 315 °C
133 - 155
116 - 145
1-6
32 - 35
373-446
C38-45
30N58-65
22-28
C17200
AM (TM00)
Mill Hardened
70 - 78
49 - 67
16-30
28 - 32
210-251
B95-C23
30N37-44
17-28
1/4 HM (TM01)
Mill Hardened
77 - 85
56 - 78
15-25
29 - 33
230-271
C20-26
30N41-47
17-28
1/2 HM (TM02)
Mill Hardened
84 - 95
66 - 88
12-22
30 - 34
250-301
C23-30
30N44-51
17-28
HM (TM04)
Mill Hardened
94 - 106
77 - 95
9-20
32 - 37
285-343
C28-35
30N48-55
17-28
SHM (TM05)
Mill Hardened
105 - 113
87 - 99
9-18
33 - 39
309-363
C31-37
30N52-56
17-28
XHM (TM06)
Mill Hardened
108 - 124
94 - 120
4-15
35 - 40
317-378
C32-38
30N52-58
17-28
XHMS (TM08)
Mill Hardened
123 - 134
105 - 127
3-12
35 - 42
325-413
C33-42
30N53-62
17-28
C17200
TM00
Mill Hardened
70 min
52 - 67
19-35
28 - 32
225-309
B98-C31
30T81-30N52
17-26
TM02
Mill Hardened
84 min
66 - 81
14-30
30 - 34
255-339
C25-34
30N46-54
17-26
TM04
Mill Hardened
98 min
80 - 95
9-25
31 - 35
285-369
C28-38
30N48-58
17-26
TM06
Mill Hardened
109 min
94 - 109
6-13
33 - 40
317-393
C32-40
30N52-60
17-26
TM08
Mill Hardened
123 min
108 - 124
3-15
35 - 42
345-429
C35-43
30N55-62
17-26
C17460
3/4 HT (TH03)
Mill Hardened
80 - 95
66 - 81
11min
32 - 33
50min
HT (TH04)
Mill Hardened
84 - 99
73 - 88
10min
29 - 32
50min
C17410
1/2 HT (TH02)
Mill Hardened
66 - 81
56 - 70
10-20
28 - 32
180-230
B89-98
30T75-82
50 min
HT (TH04)
Mill Hardened
77 - 92
70 - 84
7-17
28 - 32
210-278
B95-102
30T79-30N48
45-60
C17510
AT (TF00)
Mill Hardened
70 - 92
56 - 71
10-25
27 - 31
195-275
B92-100
30T77-82
45-60
HT (TH04)
Mill Hardened
77 - 95
66 - 85
8-20
30 - 33
216-287
B95-102
30T79-83
48-60
PRODUCT STOCK RANGE
FOILS
0.005 to 0.045 mm can be produced against your requirements. Some thicknesses are available in ready stock.
SHEETS or STRIPS IN COILS
Thickness (mm)
Width (mm)
Length (mm)
Stock Position
0.05 to 0.90 mm
4 to 300 mm
Coil
Ready Stock
1.0 to 10.00
200 mm
1000 mm
Ready Stock
RODS or ROUNDS
Dia (mm)
Length (mm)
Stock Position
1 to 50
1 meter or more
Ready Stock
50 to 600
As Required
Ready Stock
WIRES or ROUND WIRES
Dia (mm)
Length & Packing
Stock Position
0.10 to 2.00
Spools & Coils
Ready Stock
BLOCKS or SLABS
From Ready Stock, we offer Cut-To-Size pieces as per your dimensions and requirements.
MINIMUM ORDER QUANTITY (MOQ)
We have no MOQ for the stock available with us. We request MOQ only when we it is not a regular size, grade, etc. Your Order is never too small for us.
BERYLLIUM MASTER INGOTS
We can offer various ULTRA PURE VACUUM SMELTED beryllium alloys as follows:
Beryllium Copper: CuBe2, CuBe4, CuBe10
Beryllium Nickel: NiBe6, NiBe14
Beryllium Aluminium: AlBe2.5, AlBe5
Beryllium Magnesium: MgBe2, MgBe3, MgBe4
OTHER BERYLLIUM ALLOYS
We can also offer products of other kinds of Beryllium Alloys like
Cobalt-Copper-Beryllium
Beryllium Nickel
Aluminium Beryllium
Beryllium Magnesium
many more…
DALI ELECTRONICS · VIJAY COMMERCIAL HOUSE
8/a, Haroon Building, 190 Shamaldas Gandhi Marg, Mumbai 400002, Mh, India.
Mobile: +91-9820299360 / 9821236275 · Ph: +91-22-22017128, 22038204
Fax: +91-22-22016629 · E-mail:
Website:
USD
750.0 - 1000.0/pcs
You have a unique opportunity to find a Client in India who buys the same product as yours, find out at what prices he buys, what volumes, with what frequency and with what camp. All that separates you from a deal with an Indian buyer is the lack of a company name. Whatever you want to export or import, we can help you - contact us and you will have real customers. You need one TNVED code of the goods with the name in English that interests you. Under this code, we will provide you with the latest customs data on import / export for the last year. The table will show all the imports / exports registered at all customs points of India (sea and air). Inputs in this table can be from 500 to 30,000 depending on the demand for goods. Data is paid - for 1 code TNVED 1000 $ US, in cases of variations of codes 750 $ US for each. (full prepayment) You will receive a full bird's-eye view of the total volume of imports and their import rates or value, as well as who are the importers / exporters of your products. You can start negotiating with these importers. You can also use our services of your representative in India to accompany and conduct transactions. Email: Website: Nargiz Nyyazmammedova +917506986788
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