PVD (Physical vapor deposition) is characterized by a process in which the material goes from a condensed phase to a vapor phase and then back to a thin film condensed phase. We are using this technology on our Titanium nitride coated screws.
1
TIAIN / AlTiN
Coating elements: AI, Ti, n Hardness: 3300 HV
Coating thickness: 2-6um Friction coefficient: 0.35-0.40
Practical temperature: 900 ℃ Coating color: purple black, purple red
Applications: Fluorinated polymer (PTFE, PVDF), polyarylether (PEEK, PPS, PSU, PES, PPE, PPO)
2
TiCN
Coating elements: Ti, N, C Hardness: 3000 HV
Coating thickness: 2-5 µ m Friction coefficient: 0.35
Applicable temperature: 400 ℃ Coating color: grey
3
ALCrN - ACC
Coating elements: AI, Cr, n Hardness: 3200 HV
Coating thickness: 2-5um Friction coefficient: 0.35
Applicable temperature: 1000 ℃ Coating color: Black Grey
4
TIN
Coating elements: Ti, n Hardness: 2300 HV
Coating thickness: 2-6 µ m Friction coefficient: 0.4
Applicable temperature: 600 ℃ Coating color: golden yellow
Applications: PC PMMA ultra thin light guide plate (LGP)
5
CrN
Coating elements: Cr, n Hardness: 1800 HV
Coating thickness: 2-6 µ m Friction coefficient: 0.35
Applicable temperature: 700 ℃ Coating color: silver grey
Applications: Glass fibre, metals, halogen free flame retardant
6
DLC (Diamond-like Carbon
Coating element: C Hardness: 2200 HV
Coating thickness: 0.5 ~ 3 µ m Friction coefficient: 0.15
Applicable temperature: 350 ℃ Coating color: Black
HVOF (High Velocity Oxygen Fuel) coating process is a kind of thermal spraying technique that melted (or heated) materials are sprayed into the surface. By HVOF technology, alloy powder spraying is under high pressure and high velocity. The adhesive force is over 10000PSI, and the powder density can be achieved up to 99.8%, which offers outstanding performance in wear & corrosion resistance.
Chrome plating (less commonly chromium plating) is a technique of electroplating a thin layer of chromium onto a metal object. The chromed layer can be decorative, provide corrosion resistance, ease cleaning procedures, or increase surface hardness. Such screws are mainly to be used for the corrosive and other free flow material.
Pvd Coated Screw,Coated Screw,Black Coated Screws,Metals Special Screw Ningbo Jinyi Precision Machinery Co., Ltd. , https://www.jinyi-machinery.com
Last updated: May 12, 2023
Dynamic load balancing is a smart feature that helps manage energy use in your home by continuously monitoring the electrical load on your circuit. It automatically adjusts the power allocated to different appliances, including your electric vehicle (EV), to prevent overloads and ensure smooth operation. This means that when multiple high-power devices are running at the same time, such as a washing machine, dryer, or oven, the system can slow down or pause your EV charging to free up capacity.
For example, if you're charging your car while using the dishwasher and the oven, dynamic load balancing will detect this and reduce the charging speed of your EV to keep everything running safely without tripping the circuit breaker.
How does dynamic load balancing work?
This video explains how dynamic load balancing works and why it's an essential feature for home EV charging.
This article covers everything you need to know about dynamic load balancing and its importance in managing your home’s electricity efficiently.
EV home charging is becoming increasingly popular as more people switch to electric vehicles. According to recent data, over 67% of EV drivers currently charge their cars at home. Charging at home is not only more convenient but also more cost-effective than relying on public charging stations.
However, managing the power supply can be tricky. EV charging is a high-energy process that can strain your home's electrical system if not handled properly. Fortunately, there are smart solutions like dynamic load balancing that help optimize energy use and prevent overloads.
Dynamic load balancing ensures that your EV charging doesn’t interfere with other appliances. It constantly monitors the electrical load and intelligently distributes the available power to avoid exceeding safe limits. This way, you can run multiple devices simultaneously without worrying about tripping breakers or needing costly upgrades.
But how much power do you actually need to charge an electric car? A typical home EV charger can deliver between 7,400 and 22,000 watts. For comparison, a dishwasher uses around 1,050 to 1,500 watts. So, even a single EV charging session can use more power than several household appliances combined.
On average, an electric car consumes about 200 watt-hours per kilometer. If you drive around 12 kilometers a day, that’s roughly 2.48 kWh per day. Over a month, that adds up to about 74.46 kWh, which could increase your electricity bill by approximately €18 per month, depending on local energy prices.
While installing an EV charging station may require upgrading your power connection, dynamic load balancing can often eliminate the need for expensive upgrades. By managing the power draw from your EV based on current demand, it prevents overloads and keeps your system running smoothly.
If you have multiple EVs, dynamic load balancing can also distribute power between them or prioritize one based on your preferences. This makes it ideal for households with more than one electric vehicle.
Not all EV charging stations come with dynamic load balancing. However, it’s a valuable feature that enhances efficiency and safety. The EVBox Livo, for instance, is designed with this and many other smart charging features to make home EV charging more seamless and cost-effective.
Benefits of Dynamic Load Balancing:
- **No overloading**: Ensures your EV charging never exceeds safe limits.
- **No meter box adjustments**: You can use your existing power setup without costly upgrades.
- **Responsive charging speed**: Adjusts charging speed based on real-time energy usage.
- **Charging flexibility**: Allows you to charge your EV anytime without overloading your home.
- **Electricity management**: Helps monitor and manage energy consumption effectively.
Dynamic load balancing is a powerful tool that ensures efficient and safe electricity use at home. If you’re looking to install an EV charging station, consider choosing one with this smart feature to maximize convenience and savings.
For more information on home EV charging, check out our complete guide to learn everything you need to know.