That's pretty much my exact use case. If I'm having trouble figuring out a programming problem that I'm not that great on, I can usually plop my shitty code in there and it gets me something that at least works.

Also use it for website copy and business related shit that I don't really want to write myself because I'm terrible at using a business tone.

Here's #welding processing for you 🤪

Welding processing is the technique of joining two or more materials, usually metals or thermoplastics, by using heat, pressure, or both to create a strong bond. This process is essential in a variety of industries, including construction, automotive, aerospace, manufacturing, and shipbuilding. Here’s a breakdown of key aspects of welding processing:

### 1. **Types of Welding Processes**

- **Arc Welding**: Uses an electric arc to melt metals at the welding point. Common types include:

- **MIG (Metal Inert Gas) Welding**: Utilizes a continuous wire feed as an electrode and an inert gas, typically argon, to shield the weld from contaminants.

- **TIG (Tungsten Inert Gas) Welding**: Employs a tungsten electrode and inert gas to create precise, clean welds.

- **Stick Welding (Shielded Metal Arc Welding)**: Uses a consumable electrode covered in flux; a common technique for outdoor applications.

- **Gas Welding (Oxy-Acetylene Welding)**: Uses a torch fueled by oxygen and acetylene to heat and melt the base materials.

- **Resistance Welding**: Generates heat through resistance to an electric current passing through the materials. Spot welding is a popular type.

- **Laser Beam Welding**: Uses a laser to provide high precision, often in high-tech industries.

- **Electron Beam Welding**: Employs a focused beam of electrons to melt materials, used for very deep welds.

### 2. **Welding Materials**

- **Base Metals**: The materials being joined, typically metals like steel, aluminum, titanium, or alloys.

- **Filler Metals**: Sometimes added to create a strong joint, especially for thick materials or certain types of welds.

- **Shielding Gas**: Inert gases like argon, helium, or a mix are used to shield the weld area from contaminants.

### 3. **Welding Techniques**

- **Butt Welding**: The ends of two pieces are joined end-to-end, common in pipelines and structural components.

- **Fillet Welding**: Creates a triangular joint by joining two surfaces at an angle, used in T-joints.

- **Groove Welding**: Involves welding a groove between two members; used for thicker metals.

- **Spot Welding**: Common in sheet metal applications; joins two overlapping sheets at small spots.

### 4. **Safety in Welding**

- **Protective Gear**: Welders need helmets with darkened visors, gloves, aprons, and sometimes respiratory protection to shield themselves from ultraviolet light, fumes, and heat.

- **Ventilation**: Necessary to prevent inhalation of harmful fumes, especially when working with metals that emit toxic gases.

### 5. **Heat Treatment and Post-Processing**

- **Stress Relief**: Some materials require heat treatment after welding to relieve stress and reduce potential for cracking.

- **Surface Finishing**: May include grinding, polishing, or coating to improve aesthetics or corrosion resistance.

### 6. **Quality Control**

- Techniques like **ultrasonic testing**, **X-ray testing**, and **dye penetrant inspection** are used to ensure weld integrity, checking for cracks, porosity, or inclusions that could weaken the joint.

### 7. **Applications**

- **Construction**: Steel structures, bridges, and buildings rely heavily on welding.

- **Automotive and Aerospace**: Used for vehicle frames, body panels, and critical aerospace components.

- **Manufacturing**: Produces components for machinery, appliances, and consumer goods.

- **Shipbuilding**: Critical for joining hulls and structural components.

Welding processing is a sophisticated field that combines physics, engineering, and metallurgy, with constant developments in techniques, automation, and materials.