Electrodes 3D Models

Find the best Electrodes 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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Anonymous1768613702

Anonymous1765215533

The proposed design is a cylindrical, three-level modular electrochemical bottle in which each level can house up to 20 electrochemical cells, separated vertically by aluminum panels that provide structural support, electrical isolation, and thermal dissipation. Each level functions as an independent sealed chamber with its own water inlet, drainage outlet, and liquid-level sensors, allowing precise control and maintenance without affecting the other sections. The bottle features a side-opening mechanism, where the cylindrical body splits into two symmetrical half-circle panels that open outward, providing full access to the internal components and enabling easy replacement of the metal electrodes, which are mechanically mounted and electrically interconnected for quick reconfiguration. Internal wiring routes the generated DC energy from all cells to a central power management system connected to an integrated battery, where the produced energy is stored and stabilized, while maintaining complete fluid and el

Anonymous1761813683

A high-fidelity 3D medical prototype of a Lycra compression glove, matte black finish, extending from fingertips to the elbow. Embedded components: 1. A rectangular EMG sensor with silver electrodes on the inner forearm. 2. A square IMU sensor module on the back of the hand. 3. Four circular silver FSR sensors located at: the center palm, the thenar eminence (base of thumb), the tip of the index finger, and the tip of the pinky finger. Sleek industrial design, thin integrated wiring traces visible, high-resolution textures, anatomical accuracy for ALS patient monitoring.

Anonymous1768887559

Anonymous1768465611

Ultra-realistic 3D scientific visualization of a Lithium–Sulfur battery pack, shown in an isometric view. The battery pack has a clean metallic casing with a precise cutaway section revealing the internal cell architecture. Inside the cut section, clearly display the lithiation mechanism: lithium ions migrating from the lithium metal anode through the electrolyte toward the sulfur cathode, forming lithium polysulfides (Li₂Sₓ). Show layered electrodes, separator, electrolyte pathways, and sulfur cathode particles. Use color-coded arrows to indicate lithium-ion transport and electron flow. Include nanoscale sulfur particles embedded in a porous carbon matrix. High-resolution, professional research illustration style, realistic materials, soft studio lighting, sharp focus, neutral background, suitable for academic presentation and journal graphics.

Anonymous1768487777

Anonymous1754685838

Anonymous1767697498

Inside Working of an Ion Implantation Machine

(Semiconductor Fabrication – Correct Technical Description)

An ion implantation system introduces controlled dopant atoms (such as boron, phosphorus, or arsenic) into a silicon wafer by accelerating ions at high energy and embedding them into the crystal lattice.

The tool operates under high vacuum and is divided into six main internal subsystems, arranged linearly.

1. Ion Source Chamber

Function: Generate charged dopant ions

Dopant gas (BF₃, PH₃, AsH₃) or solid source is introduced

RF or arc discharge ionizes the gas

Produces positive ions (B⁺, P⁺, As⁺)

Operates at low pressure (~10⁻⁴ Torr)

3D elements to model:

Plasma chamber

RF coils or arc electrodes

Gas inlet lines

Extraction aperture

2. Extraction & Acceleration Column

Function: Pull ions out and accelerate them

Electrostatic extraction electrodes pull ions from plasma

High voltage (10 keV – 3 MeV depending on tool)

Defines ion energy → determines implant depth

Key concept:

Energy = pene

Anonymous1765970573

电泳槽，通常由透明或半透明的有机玻璃制成，呈长方形盒状，结构简洁。槽体两端内嵌平行的金属电极（正极红色、负极黑色标记清晰），用于在电场中驱动样品迁移。槽内可放置一块承载凝胶的透明托架，凝胶上整齐排列着一列加样孔，用于点入待测的核酸或蛋白质样品。整个电泳槽在工作时需注入适量的缓冲液，恰好没过凝胶表面。

Anonymous1764902420

Anonymous1764211612

Design a compact electrolysis chamber insert for hydrogen generation.
It should fit vertically inside a cylindrical hydrogen engine housing.
Include:
– Two rectangular slots for graphene-titanium electrodes (one anode, one cathode),
– A water inlet port at the base,
– Two gas outlet nozzles at the top (for H₂ and O₂),
– Internal guides to keep water evenly flowing between the electrodes,
– A bolt-on top and bottom cap system with visible o-ring grooves,
– Optional small sensor ports on the side walls,
– Material: high-temp safe polymer (PETG-like), semi-gloss finish,
– Functional and technical, no decorative parts.

Anonymous1764701923

Características del prototipo

Base ligera y económica: construido sobre cartón rígido, fácil de manipular y montar.

Fuente de energía simple: utiliza una pila AA para alimentar el circuito.

Sistema de alerta: incorpora un buzzer pequeño que emite sonido cuando el circuito se activa.

Sensor de humedad conductor: dos láminas de aluminio separadas actúan como electrodos.

Activación por agua salina: el circuito solo se cierra cuando el agua con sal une ambas láminas, gracias a su conductividad.

Cableado básico: cables delgados conectan la pila, el buzzer y cada lámina de aluminio.

Bajo costo y fácil armado: hecho con materiales accesibles como cartón, aluminio y cinta adhesiva.

Seguro para demostración: opera con bajo voltaje, ideal para proyectos escolares.

Visible y demostrativo: permite observar claramente cuándo se activa y cómo la humedad genera la alarma.

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