We supply SUPER ENGINEERING PLASTICS(SUMIKASUPER LCP, SUMIKAEXCEL PES).
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- カジノ シークレット 公式up
カジノ シークレット 公式up and Grade Features
SUMIKASUPER LCP including the E5000, E4000, カジノ シークレット 公式000, カジノ シークレット 公式000HF, SZ, SV, and SR series, making it one of the best lineups in the industry. The following table shows its characteristics and correlation between SUMIKASUPER LCP representative grades. Many grades in addition to the ones listed are also available, which may be most suitable for your applications, so please contact us.
Table 1-2-1 カジノ シークレット 公式up and Features of SUMIKASUPER LCP
| Series | Typical Grade | Filler content (%) |
Filler | Features | DTUL (°C)*1 |
Standard molding temperature (°C) |
|---|---|---|---|---|---|---|
| E5000 series | E5006L | 30 | Glass fiber | Ultra-high heat resistance/ カジノ シークレット 公式trength/ Low coefficient of linear thermal expansion |
355 | 400 |
| E5008 | 40 | Glass fiber | Ultra-high heat resistance/ Low coefficient of linear thermal expansion |
335 | ||
| E5008L | 40 | Glass fiber | Ultra-high heat resistance/ Low shrinkage |
339 | ||
| E52008 | 40 | Glass fiber | Ultra-high heat resistance/ Good flowability |
336 | ||
| E5204L | 20 | Glass fiber/ Inorganic |
Ultra-high heat resistance/ Low thermal conductivity/ Low relative permittivity |
351 | ||
| E4000 series | E4006L | 30 | Glass fiber | High heat resistance/ Low shrinkage |
324 | 380 |
| E4008 | 40 | Glass fiber | High heat resistance/ カジノ シークレット 公式trength |
326 | ||
| E4009 | 45 | Glass fiber | High heat resistance/ カジノ シークレット 公式trength |
326 | ||
| E4205R | 25 | Glass fiber/ Inorganic |
High heat resistance/ Low thermal conductivity/ Low relative permittivity |
305 | ||
| カジノ シークレット 公式000 series | カジノ シークレット 公式006 | 30 | Glass fiber | カジノ シークレット 公式trength/Good flowability/ High mold release ability |
280 | 360 |
| カジノ シークレット 公式006L | 30 | Glass fiber | カジノ シークレット 公式trength/Low shrinkage/ High mold release ability |
284 | ||
| カジノ シークレット 公式007AS | 35 | Glass fiber/Inorganic | Antistatic | 274 | ||
| カジノ シークレット 公式008 | 40 | Glass fiber | カジノ シークレット 公式trength/High flowability | 279 | ||
| カジノ シークレット 公式008 KE | 40 | Glass fiber | カジノ シークレット 公式trength/High flowability | 276 | ||
| カジノ シークレット 公式205L | 25 | Glass fiber/ Inorganic |
Low thermal conductivity/ Low relative permittivity |
258 | ||
| カジノ シークレット 公式807T | 35 | Inorganic | カジノ シークレット 公式urface smoothness | 262 | ||
| カジノ シークレット 公式809U | 45 | Glass fiber/ Inorganic |
Low warpage/ High heat resistance/ Good flowability |
270 | ||
| カジノ シークレット 公式809T | 45 | Inorganic | カジノ シークレット 公式urface smoothness | 262 | ||
| カジノ シークレット 公式000HF series | カジノ シークレット 公式007LHF | 35 | Glass fiber | Low warpage/カジノ シークレット 公式trength | 269 | 350 |
| カジノ シークレット 公式007LHF-MR | 35 | Glass fiber | Low warpage/カジノ シークレット 公式trength/ High mold release ability |
269 | ||
| カジノ シークレット 公式807LHF | 35 | Glass fiber/ Inorganic |
Low warpage/カジノ シークレット 公式trength | 269 | ||
| カジノ シークレット 公式808LHF | 40 | Glass fiber/ Inorganic |
Low warpage/カジノ シークレット 公式trength | 274 | ||
| カジノ シークレット 公式808GHF | 40 | Glass fiber/ Inorganic |
Low warpage/High flowability/ カジノ シークレット 公式trength |
268 | ||
| カジノ シークレット 公式808UHF | 40 | Glass fiber/ Inorganic |
Low warpage/High flowability | 240 | ||
| カジノ シークレット 公式810LHF | 50 | Glass fiber/ Inorganic |
Low warpage/Low shrinkage/ Low anisotropy |
266 | ||
| カジノ シークレット 公式810KHF | 50 | Glass fiber/ Inorganic |
Low warpage/Low shrinkage/ Low anisotropy |
265 | ||
| SV6000 series | SV6808THF | 40 | Glass fiber/ Inorganic |
Ultra-low warpage/High flowability | 270 | |
| SV6808GHF | 40 | Glass fiber/ Inorganic |
Low warpage/High flowability/ カジノ シークレット 公式trength |
255 | ||
| SV6808L | 40 | Glass fiber/ Inorganic |
Low warpage/ High heat resistance/ カジノ シークレット 公式trength |
293 | 360 | |
| SR1000 series | SR1009 | 45 | Glass fiber | Ultra-カジノ シークレット 公式trength/ Good flowability |
277 | |
| SR1009L | 45 | Glass fiber | Ultra-カジノ シークレット 公式trength/ High hardness |
286 | ||
| SR1205L | 25 | Glass fiber/ Inorganic |
Low relative permittivity/ Low dielectric dissipation factor |
252 | ||
| SR2000 series | SR2506 | 30 | Glass fiber/ Inorganic |
Low warpage/ Thin-wall ultra-high flowability |
239 | 350 |
| SR2507 | 35 | Inorganic | Ultra-low warpage/ Thin-wall ultra-high flowability |
240 | ||
| SZ series | SZ6505HF | 25 | Inorganic | Low warpage/ Ultra-high flowability |
244 | |
| SZ6506HF | 30 | Inorganic | Low warpage/ Ultra-high flowability |
245 | ||
| SZ4506 | 30 | Inorganic | Low warpage/ High heat resistance/ カジノ シークレット 公式urface smoothness |
296 | 380 | |
| SZ6709L | 45 | Glass fiber/ Inorganic |
High whiteness | 275 | 350 |
(*1) Measured at ASTM D648 1.82 MPa
Some of the above grades are custom manufactured products.
Figure 1-2-1 Features of Typical Grades of SUMIKASUPER LCP
For more information, please contact us.
High Flow and Low Warpage Grade of SUMIKASUPER LCP
Surface mounting technology (SMT) where electronic components are mounted on boards at high temperatures of 250 to 270°C has become common in recent years. Therefore, LCP is widely used for SMT-compatible connectors due to its excellent heat resistance, dimensional stability, and precision molding. In addition to having heat resistance compatible with SMT, the grade of SUMIKASUPER LCP that is compatible with SMT has excellent thin-wall flowability and thin-wall strength even at wall thicknesses of 0.2mm or less. The following table shows the positioning of thin-wall flowability and thin-wall strength with SUMIKASUPER LCP high flow and low warpage grades. When selecting a grade, refer to Table 1-2-3, Figure 1-2-2, and the SUMIKASUPER LCP selection guides in Chapter 6 Applications of LCP, or contact us directly.
Table 1-2-3 Typical Grades and Features of SUMIKASUPER LCP
| Filler | Features | E series | E/SV series | SZ/SR series | |
|---|---|---|---|---|---|
| Standard | General-purpose and functionality |
High performance | |||
| Glass fiber | Standard | カジノ シークレット 公式007LHF | カジノ シークレット 公式007LHF-MR | SR1009 SR1009L |
|
| Glass fiber / inorganic or inorganic alone |
Low warpage |
Standard | カジノ シークレット 公式807LHF カジノ シークレット 公式808LHF |
SV6808THF | SZ6505HF |
| High flow | カジノ シークレット 公式808UHF カジノ シークレット 公式808GHF |
SV6808GHF | SR2506 | ||
| Low anisotropy | カジノ シークレット 公式810KHF | カジノ シークレット 公式809U | SR2507 | ||
Figure 1-2-2 Positioning of Typical Grades of SUMIKASUPER LCP
Grade Notation Method
As shown in the table below, SUMIKASUPER LCP grades use a notation method that makes it easy to quickly recognize the composition.
However, there are some exceptions to this notation such as with ultra-high toughness grades and high flowability grades.
Table 1-2-4 Grade Notation for SUMIKASUPER LCP
| Naming Conventions for SUMIKASUPER LCP Grades | |||
|---|---|---|---|
| Position | Characteristics | Example | Meaning |
| First and second letters | Types of functionalities of resins | E SR SV SZ |
Standard grades High performance resin grades Functional standard grades Functional grades |
| First digit | Base polymer types | 5000 4000 6000 6000HF 1000 2000 |
5000 series base polymers 4000 series base polymers 6000 series base polymers 6000HF series base polymers 1000 series base polymers 2000 series base polymers |
| Second digit | Types of filler | 0 2 5 7 8 |
Glass fiber Inorganic filler A, or glass fiber / inorganic filler A Inorganic filler B, or glass fiber / inorganic filler B Inorganic filler C, or glass fiber / inorganic filler C Inorganic filler D, or glass fiber / inorganic filler D |
| Third and fourth numbers | Total amount of filler | 05 06 07 08 09 10 |
25% 30% 35% 40% 45% 50% |
| Next character(s) | Grade Features | None L G,U,T,K |
Short glass fiber filled or unfilled Long glass fiber filled Glass fiber / inorganic filler ratio change |
| Space | |||
| Next character | Functionalization or color codes | MR AS None B GR CY Z |
Addition of mold releasing properties Addition of antistatic properties Natural Black Gray Blue Company control symbol |
