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F4BME217 Copper Clad Laminate 0.1mm-12mm Thickness

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F4BME217 Copper Clad Laminate 0.1mm-12mm Thickness

MOQ:	1 pz
prezzo:	USD9.99-99.99
Imballaggio standard:	Sacchi a vuoto+cartoni
Periodo di consegna:	8-9 giorni lavorativi
Metodo di pagamento:	T/T
Capacità di approvvigionamento:	5000 pezzi al mese

Dettagli Informazioni

Descrizione del prodotto

Informazioni dettagliate

Luogo di origine

Marca

Bicheng

Certificazione

UL, ISO9001, IATF16949

Numero di modello

BIC-332.V1.0

Numero di parte:

F4BM217

Spessore della laminazione:

0.1mm-12mm

Dimensioni del laminato:

460X610mm 500X600mm 850X120mm 914X1220mm 1000X1200mm

Peso di rame:

0,5 OZ (0,018 mm) 1 OZ (0,035 mm)

Evidenziare:

0.1mm Copper Clad Laminate

BME217 Copper Clad Laminate

12mm Copper Clad Laminate

Descrizione del prodotto

Wangling's F4BME217 is a high-performance PTFE composite laminate engineered for demanding RF and microwave applications. Precision-formulated from woven fiberglass cloth, PTFE resin, and film, it delivers superior, consistent electrical properties.

This next-generation material significantly outperforms its predecessor, F4B220, offering lower dielectric loss, higher insulation resistance, and enhanced stability. It serves as a reliable, high-performance domestic substitute for comparable imported laminates.

F4BME217 Copper Clad Laminate 0.1mm-12mm Thickness 0

Key Material Variants:
The core dielectric formulation is available in two copper foil configurations to suit specific application needs:

F4BM217: Clad with standard Electrodeposited (ED) copper foil. This is a cost-effective solution for standard high-frequency applications where low Passive Intermodulation (PIM) is not critical.

F4BME217: Clad with Reverse-Treated Foil (RTF) copper. This configuration provides superior low-PIM performance, enables more precise etching for fine-line circuits, and reduces conductor loss, making it ideal for high-precision designs.

Tailored Performance through Material Science:
The electrical and mechanical properties of F4BME217 are precisely tuned by adjusting the ratio of PTFE to fiberglass cloth within the composite. This allows for controlled dielectric constants while maintaining low loss characteristics and enhanced dimensional stability.

A higher dielectric constant is achieved by increasing the fiberglass content, which improves dimensional stability, lowers the thermal expansion coefficient, and reduces temperature drift.

This adjustment involves a balanced trade-off, as a higher fiberglass ratio may result in a marginal increase in dielectric loss.

This design flexibility enables engineers to select the optimal material grade for a perfect balance of electrical performance, mechanical robustness, and processing requirements.

Typical Application Cases

-Microwave, RF, and Radar

-Phase Shifters, Passive Components

-Power Dividers, Couplers, Combiners

-Feed Networks, Phased Array Antennas

-Satellite Communication, Base Station Antennas

Product Technical Parameters				Product Model & Data Sheet
Product Features		Test Conditions	Unit	F4BME217
Dielectric Constant (Typical)		10GHz	/	2.17
Dielectric Constant Tolerance		/	/	±0.04
Loss Tangent (Typical)		10GHz	/	0.001
Loss Tangent (Typical)		20GHz	/	0.0014
Dielectric Constant Temperature Coefficient		-55ºC～150ºC	PPM/℃	-150
Peel Strength		1 OZ F4BM	N/mm	>1.8
Peel Strength		1 OZ F4BME	N/mm	>1.6
Volume Resistivity		Standard Condition	MΩ.cm	≥6×10^6
Surface Resistivity		Standard Condition	MΩ	≥1×10^6
Electrical Strength (Z direction)		5KW,500V/s	KV/mm	>23
Breakdown Voltage (XY direction)		5KW,500V/s	KV	>30
Coefficientof Thermal Expansion	XY direction	-55 º~288ºC	ppm/ºC	25, 34
Coefficientof Thermal Expansion	Z direction	-55 º~288ºC	ppm/ºC	240
Thermal Stress		260℃, 10s,3 times		No delamination
Water Absorption		20±2℃, 24 hours	%	≤0.08
Density		Room Temperature	g/cm3	2.17
Long-Term Operating Temperature		High-Low Temperature Chamber	℃	-55～+260
Thermal Conductivity		Z direction	W/(M.K)	0.24
PIM		Only applicable to F4BME	dBc	≤-159
Flammability		/	UL-94	V-0
Material Composition		PTFE, Fiberglass Cloth F4BM paired with ED copper foil, F4BME paired with reverse-treated (RTF) copper foil.

F4BME217 Copper Clad Laminate 0.1mm-12mm Thickness 1

Tag:

0.1 mm di lamiera rivestita di rame,

BME217 Laminato rivestito di rame,

Laminato rivestito di rame da 12 mm

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Laminati rivestiti di rame

F4BME217 Copper Clad Laminate 0.1mm-12mm Thickness

MOQ:	1 pz
prezzo:	USD9.99-99.99
Imballaggio standard:	Sacchi a vuoto+cartoni
Periodo di consegna:	8-9 giorni lavorativi
Metodo di pagamento:	T/T
Capacità di approvvigionamento:	5000 pezzi al mese

Informazioni dettagliate

Descrizione del prodotto

Informazioni dettagliate

Luogo di origine

Cina

Marca

Bicheng

Certificazione

UL, ISO9001, IATF16949

Numero di modello

BIC-332.V1.0

Numero di parte:

F4BM217

Spessore della laminazione:

0.1mm-12mm

Dimensioni del laminato:

460X610mm 500X600mm 850X120mm 914X1220mm 1000X1200mm

Peso di rame:

0,5 OZ (0,018 mm) 1 OZ (0,035 mm)

Quantità di ordine minimo:

1 pz

Prezzo:

USD9.99-99.99

Imballaggi particolari:

Sacchi a vuoto+cartoni

Tempi di consegna:

8-9 giorni lavorativi

Termini di pagamento:

T/T

Capacità di alimentazione:

5000 pezzi al mese

Evidenziare

0.1mm Copper Clad Laminate

BME217 Copper Clad Laminate

12mm Copper Clad Laminate

Descrizione del prodotto

F4BME217 Copper Clad Laminate 0.1mm-12mm Thickness 0

Key Material Variants:
The core dielectric formulation is available in two copper foil configurations to suit specific application needs:

F4BM217: Clad with standard Electrodeposited (ED) copper foil. This is a cost-effective solution for standard high-frequency applications where low Passive Intermodulation (PIM) is not critical.

A higher dielectric constant is achieved by increasing the fiberglass content, which improves dimensional stability, lowers the thermal expansion coefficient, and reduces temperature drift.

This adjustment involves a balanced trade-off, as a higher fiberglass ratio may result in a marginal increase in dielectric loss.

This design flexibility enables engineers to select the optimal material grade for a perfect balance of electrical performance, mechanical robustness, and processing requirements.

Typical Application Cases

-Microwave, RF, and Radar

-Phase Shifters, Passive Components

-Power Dividers, Couplers, Combiners

-Feed Networks, Phased Array Antennas

-Satellite Communication, Base Station Antennas

Product Technical Parameters				Product Model & Data Sheet
Product Features		Test Conditions	Unit	F4BME217
Dielectric Constant (Typical)		10GHz	/	2.17
Dielectric Constant Tolerance		/	/	±0.04
Loss Tangent (Typical)		10GHz	/	0.001
Loss Tangent (Typical)		20GHz	/	0.0014
Dielectric Constant Temperature Coefficient		-55ºC～150ºC	PPM/℃	-150
Peel Strength		1 OZ F4BM	N/mm	>1.8
Peel Strength		1 OZ F4BME	N/mm	>1.6
Volume Resistivity		Standard Condition	MΩ.cm	≥6×10^6
Surface Resistivity		Standard Condition	MΩ	≥1×10^6
Electrical Strength (Z direction)		5KW,500V/s	KV/mm	>23
Breakdown Voltage (XY direction)		5KW,500V/s	KV	>30
Coefficientof Thermal Expansion	XY direction	-55 º~288ºC	ppm/ºC	25, 34
Coefficientof Thermal Expansion	Z direction	-55 º~288ºC	ppm/ºC	240
Thermal Stress		260℃, 10s,3 times		No delamination
Water Absorption		20±2℃, 24 hours	%	≤0.08
Density		Room Temperature	g/cm3	2.17
Long-Term Operating Temperature		High-Low Temperature Chamber	℃	-55～+260
Thermal Conductivity		Z direction	W/(M.K)	0.24
PIM		Only applicable to F4BME	dBc	≤-159
Flammability		/	UL-94	V-0
Material Composition		PTFE, Fiberglass Cloth F4BM paired with ED copper foil, F4BME paired with reverse-treated (RTF) copper foil.

F4BME217 Copper Clad Laminate 0.1mm-12mm Thickness 1

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