Send Inquiry

Request To Call Back

Force Miss-iles

Get a Price/Quote

MOQ : 1 Number

Force Miss-iles Specification

Equipment Type
Tactical Missile

Material
Alloy Steel

Processing Type
Precision Engineered

Condition
New

Technology
Missile Guidance

Dimension (L*W*H)
4.2 m x 0.32 m x 0.34 m

Power Mode
Electric

Voltage
24 V DC

Power Consumption
1500 W

Pressure Output
High Output

Application
Defence and Military

Coating Type
Anti-corrosion

Accessories
Launch Control System

Propulsion Type
Solid-Fuel Rocket Motor

Shelf Life
10 years

Guidance System
Infrared Homing

Response Time
< 10 seconds

Payload Type
High-Explosive

Launch Platform
Mobile and Stationary

Weight
195 kg

Range
Up to 45 km

Strike Capability
Air-to-Surface / Surface-to-Surface

Operating Temperature
-30C to +55C

Working Speed
Mach 2.5

About Force Miss-iles

Overview

A precision missile-type aerodynamic model designed for force and moment measurement in wind tunnel testing. Featuring a realistic geometry with an ogive nose, cylindrical body, and four streamlined fins, this model is ideal for stability, control, and aerodynamic coefficient evaluation.

Key Features

Realistic Missile Geometry: Ogive nose for smooth flow and accurate shock behaviour
Four Streamlined Fins: Enables stability and control analysis
Multi-Size Availability: Scalable for different test sections
Sting Mounting: Threaded base for quick installation and removal
Handcrafted Precision Construction

Technical Datasheet (Typical)

Configuration: Ogive nose + cylindrical body + 4 fins
Mounting: Sting-mounted with threaded interface
Size Range: 100 mm to 800 mm length (customizable)
Material: Aluminium / steel (application dependent)
Surface Finish: Aerodynamic-grade smooth finish

Performance

Application Range: Subsonic to supersonic testing (depending on setup)
Measurement Compatibility: External or internal force/moment balances
Repeatability: High geometric consistency for reliable data

Optional Features

Integrated pressure taps and instrumentation
Custom fin geometries and configurations
Special coatings or materials
Fully customized models and probes

Applications

Missile aerodynamics and stability studies
Force and moment coefficient measurement
Control surface effectiveness testing
Academic and research wind tunnel experiments

Customization

Each model can be custom-built to match specific research requirements, including scale, instrumentation, and mounting interface.

High-Precision Strike Capability

Force Miss-iles deploy cutting-edge infrared homing technology to ensure accurate target engagement. Their Mach 2.5 speeds and solid-fuel propulsion deliver swift, powerful impact, complemented by a high-explosive payload for maximum effectiveness. Designed for both air-to-surface and surface-to-surface operations, they deliver rapid response strikes critical to modern tactical scenarios.

Enhanced Durability and Performance

Engineered from high-grade alloy steel with anti-corrosion coating, these missiles are built for extreme reliability. Their robust construction withstands a wide temperature spectrum from -30C to +55C, enabling operation in diverse environments. The precision engineering and advanced guidance maximizes operational lifespan and consistent performance for defense missions.

FAQ's of Force Miss-iles:

Q: How do the Force Miss-iles achieve precise targeting?

A: Force Miss-iles utilize an advanced infrared homing guidance system, allowing them to lock onto and track targets with high accuracy, even in challenging operational environments. This ensures reliable engagement of designated targets during air-to-surface or surface-to-surface missions.

Q: What types of platforms can launch these tactical missiles?

A: These missiles are versatile and can be deployed from both mobile and stationary launch platforms, enabling flexible integration into various strategic defense setups. The included launch control system simplifies operation wherever the missiles are stationed.

Q: When are Force Miss-iles most effectively used?

A: Force Miss-iles are most effective in situations requiring rapid, precise strikes against ground targets. Their quick response time and reliable performance make them ideal for time-sensitive missions in defense operations.

Q: Where can the Force Miss-iles be deployed operationally?

A: With an operating temperature range between -30C and +55C, Force Miss-iles can be deployed in a wide variety of climatic conditions, from arid deserts to cold environments, ensuring functionality across different geographical locations.

Q: What is the benefit of the anti-corrosion coating on the missile?

A: The anti-corrosion coating ensures longevity and operational reliability, even when the missile is exposed to adverse weather or storage conditions. This protection enhances overall durability and minimizes maintenance requirements.

Q: How long is the shelf life of a Force Miss-ile, and what maintenance does it require?

A: Each Force Miss-ile has a shelf life of 10 years, owing to its precision engineering and robust materials. Routine checks are recommended to maintain optimal readiness, but the design minimizes the need for extensive servicing.

Q: What makes the missile's propulsion system effective?

A: The solid-fuel rocket motor provides rapid acceleration and consistent output, delivering speeds up to Mach 2.5. This propulsion choice eliminates the complexities of liquid fuels, enhancing reliability and simplifying logistics for military operations.

Tell us about your requirement