humm3闪光灯系统
埃赛力达的humm3®技术是一套完整的宽带脉冲系统,非常适合复合材料加热应用,包括自动铺丝(AFP)、自动铺带(ATL)和纤维缠绕。humm3 Enterprise可以安装在机器人上,因此非常适合工业应用。可选配置允许对多束纤维进行独立温控加热。humm3 Discovery系统则是研发测试场景的完美解决方案。
humm3的宽带输出使单个系统即可适配多种材料,同时避免了激光所带来的额外安全风险。
humm3具有高峰值功率以及瞬间升温加热和冷却的能力,使其在加工复杂的干纤维和热塑性复合材料部件时,比传统红外加热器快上数百倍,大幅提升加工效率。
此外,humm3头还可串联配置以实现更宽的加热宽度,从而极大提高材料沉积速率。在某些配置中,每束纤维都可以根据独特的加热曲线进行加热。
- 宽带光谱输出,适用于加热各种复合材料
- 加热性能远超红外线加热器,可媲美激光加热
- 精确的三参数控制——脉冲持续时间、功率和频率
- 智能数字控制系统响应工艺速度
- 可完全集成到动态机器人生产单元中
- 使用可选配置可对单根纤维束进行独立加热
- Precise dynamic temperature control - Instantaneous heat-up and cool-down response allows processing hundreds of times faster than IR heaters.
- Standard quartz light guides in 25mm and 50mm. Custom geometries are available upon request.
- 紧凑灵活的光学头 - 适用于复杂曲面、空间有限以及负载较低的机器人。
- ‘Plug and Play’ head connectivity allows head modules to be quickly replaced to suit different process requirements and maintenance schedules.
- Broadband radiation - rapid heating and cooling combined with no residual lamp heat make humm3 ideal for dynamic heating of dry fiber, thermoplastics and a wide variety of composite materials.
- 安全性增强 - humm3是一种宽带发射器,无需4类激光防护罩,没有相关的安全管理负担。
- 管道的缠绕成型
- 压力容器的缠绕成型
- 轻质预制结构
- 复杂复合结构
- 航空航天面板和子结构
- 复合增强材料
- 陶瓷基复合材料 (CMC) 的烧结
| Application* | Material Group | Material Name | Material Type | Process Temperature °C |
| AFP / FW | Thermoplastic | CF-PEAK | Carbon Fiber Poly Ether Aryl Ketone | 350 |
| AFP | Thermoplastic | CF-LM-PAEK | Carbon Fiber Low Melt Poly Aryl Ether Ketone | 280 – 350 |
| AFP | Thermoplastic | CF-PA-12 | Carbon Fiber Polyamide-12 | 178 - 210 |
| AFP / FW | Thermoplastic | CF-PA-11 | Carbon Fiber Polyamide-11 | 300 |
| AFP / FW | Thermoplastic | GF-PA-6 | Glass Fiber Polyamide-6 | 220 – 260 |
| AFP | Thermoplastic | CF-PC | Carbon Fiber Reinforced Polycarbonate | 140 – 307 |
| AFP | Thermoplastic | CF-PEK | Carbon Fiber Reinforced Poly Ether Ketone | 367 |
| AFP / FW | Thermoplastic | CF-PEEK | Carbon Fiber Reinforced Poly Ether Ether Ketone | 346 – 373 |
| AFP | Thermoplastic | CF-PEEKK | Carbon Fiber Reinforced Poly Ether Ether Ketone Ketone | 363 |
| AFP | Thermoplastic | CF-PEKEKK | Carbon Reinforced Fiber Poly Ether Ketone Ether Ketone Ketone | 377 |
| AFP | Thermoplastic | CF-PEKK | Carbon Fiber Reinforced Poly Ether Ketone Ketone | 330 – 375 |
| AFP | Thermoplastic | GF-PET | Glass Fiber Reinforced Polyethyleneterephthalate | 215 – 230 |
| AFP | Thermoplastic | CF-PP | Carbon Fiber Polypropylene | 190 – 205 |
| AFP | Thermoplastic | CF-PPA | Carbon Fiber Polyphthalamide | 310 |
| AFP | Thermoplastic | CF-PPS | Carbon Fiber Reinforced Polyphenylene Sulfide | 310 – 320 |
| AFP | Thermoplastic | CF-PEI | Carbon Fiber Reinforced Poly Ether Imide | 247 – 248 |
| AFP | Thermoplastic | GF-rPET | Glass Fiber Reinforced Recycled Polyethylene Terephthalate | 280 – 290 |
| AFP | Thermoplastic | GF-HDPE | Glass Fiber Reinforced High Density Polyethylene | 160 – 167 |
| AFP | Dry Fiber | Dry Fiber | Toray Cetex TX 1100 | 170 |
| AFP | Dry Fiber | Dry Fiber | Hexcel® HiTape® | 170 |
| AFP | Thermoset | CF-Uni Directional Prepreg | Carbon Fiber Reinforced Pre-Impregnated Resin | 60 – 80 |
| AFP | Aramid | Polymid | Fiber Reinforcement | 400 |
| AFP / FW | Bio Composites | Various | Various - Dependent on Binder | Various |
*Automated Fiber Placement (AFP), Filament Winding (FW)
This table details indicative process temperatures for a variety of materials. Please note that exact parameters to reach these process temperatures are dependent on the desired application, environmental conditions and machinery constraints. In addition to the above list, humm3 can process a wide variety of other high temperature materials such as oxide-oxide ceramic matrix composites (OxOx CMCs). For more information about how humm3 can work with your application, please contact us. Excelitas can conduct material sample tests to validate compatibility or offer other support to help accelerate your work.
Explore our collection of humm3 research papers.
Want to understand what makes humm3 so powerful? Our document library offers quick access to expert insights, technical papers, and results—all designed to show how humm3 delivers real impact. Whether you are evaluating, implementing, or simply curious, start exploring now.
- 宽带光谱输出,适用于加热各种复合材料
- 加热性能远超红外线加热器,可媲美激光加热
- 精确的三参数控制——脉冲持续时间、功率和频率
- 智能数字控制系统响应工艺速度
- 可完全集成到动态机器人生产单元中
- 使用可选配置可对单根纤维束进行独立加热
- Precise dynamic temperature control - Instantaneous heat-up and cool-down response allows processing hundreds of times faster than IR heaters.
- Standard quartz light guides in 25mm and 50mm. Custom geometries are available upon request.
- 紧凑灵活的光学头 - 适用于复杂曲面、空间有限以及负载较低的机器人。
- ‘Plug and Play’ head connectivity allows head modules to be quickly replaced to suit different process requirements and maintenance schedules.
- Broadband radiation - rapid heating and cooling combined with no residual lamp heat make humm3 ideal for dynamic heating of dry fiber, thermoplastics and a wide variety of composite materials.
- 安全性增强 - humm3是一种宽带发射器,无需4类激光防护罩,没有相关的安全管理负担。
- 管道的缠绕成型
- 压力容器的缠绕成型
- 轻质预制结构
- 复杂复合结构
- 航空航天面板和子结构
- 复合增强材料
- 陶瓷基复合材料 (CMC) 的烧结
| Application* | Material Group | Material Name | Material Type | Process Temperature °C |
| AFP / FW | Thermoplastic | CF-PEAK | Carbon Fiber Poly Ether Aryl Ketone | 350 |
| AFP | Thermoplastic | CF-LM-PAEK | Carbon Fiber Low Melt Poly Aryl Ether Ketone | 280 – 350 |
| AFP | Thermoplastic | CF-PA-12 | Carbon Fiber Polyamide-12 | 178 - 210 |
| AFP / FW | Thermoplastic | CF-PA-11 | Carbon Fiber Polyamide-11 | 300 |
| AFP / FW | Thermoplastic | GF-PA-6 | Glass Fiber Polyamide-6 | 220 – 260 |
| AFP | Thermoplastic | CF-PC | Carbon Fiber Reinforced Polycarbonate | 140 – 307 |
| AFP | Thermoplastic | CF-PEK | Carbon Fiber Reinforced Poly Ether Ketone | 367 |
| AFP / FW | Thermoplastic | CF-PEEK | Carbon Fiber Reinforced Poly Ether Ether Ketone | 346 – 373 |
| AFP | Thermoplastic | CF-PEEKK | Carbon Fiber Reinforced Poly Ether Ether Ketone Ketone | 363 |
| AFP | Thermoplastic | CF-PEKEKK | Carbon Reinforced Fiber Poly Ether Ketone Ether Ketone Ketone | 377 |
| AFP | Thermoplastic | CF-PEKK | Carbon Fiber Reinforced Poly Ether Ketone Ketone | 330 – 375 |
| AFP | Thermoplastic | GF-PET | Glass Fiber Reinforced Polyethyleneterephthalate | 215 – 230 |
| AFP | Thermoplastic | CF-PP | Carbon Fiber Polypropylene | 190 – 205 |
| AFP | Thermoplastic | CF-PPA | Carbon Fiber Polyphthalamide | 310 |
| AFP | Thermoplastic | CF-PPS | Carbon Fiber Reinforced Polyphenylene Sulfide | 310 – 320 |
| AFP | Thermoplastic | CF-PEI | Carbon Fiber Reinforced Poly Ether Imide | 247 – 248 |
| AFP | Thermoplastic | GF-rPET | Glass Fiber Reinforced Recycled Polyethylene Terephthalate | 280 – 290 |
| AFP | Thermoplastic | GF-HDPE | Glass Fiber Reinforced High Density Polyethylene | 160 – 167 |
| AFP | Dry Fiber | Dry Fiber | Toray Cetex TX 1100 | 170 |
| AFP | Dry Fiber | Dry Fiber | Hexcel® HiTape® | 170 |
| AFP | Thermoset | CF-Uni Directional Prepreg | Carbon Fiber Reinforced Pre-Impregnated Resin | 60 – 80 |
| AFP | Aramid | Polymid | Fiber Reinforcement | 400 |
| AFP / FW | Bio Composites | Various | Various - Dependent on Binder | Various |
*Automated Fiber Placement (AFP), Filament Winding (FW)
This table details indicative process temperatures for a variety of materials. Please note that exact parameters to reach these process temperatures are dependent on the desired application, environmental conditions and machinery constraints. In addition to the above list, humm3 can process a wide variety of other high temperature materials such as oxide-oxide ceramic matrix composites (OxOx CMCs). For more information about how humm3 can work with your application, please contact us. Excelitas can conduct material sample tests to validate compatibility or offer other support to help accelerate your work.
Explore our collection of humm3 research papers.
Want to understand what makes humm3 so powerful? Our document library offers quick access to expert insights, technical papers, and results—all designed to show how humm3 delivers real impact. Whether you are evaluating, implementing, or simply curious, start exploring now.