YUNHAI-1 02 DEB (48524)

COSPAR: 2019-063AJ | Alt Name: deb Yunhai 1-02
DECAYED

Image
YUNHAI-1 02 DEB Satellite Image
Additional Sources
Launch Details

Launch Date

September 25, 2019

Launch Site

JSC

Launch Pad

LC43/94

Launch Vehicle

Chang Zheng 2D

Orbital Elements

NORAD ID

48524

International Designator

2019-063AJ

Decay Date

3/30/2024

Basic Satellite Info

Name

YUNHAI-1 02 DEB

Alternative Name

deb Yunhai 1-02

Type

Debris

Status

Space Junk

Owner

SAST

Country

China

Constellation

N/A

Related Satellites

Major Events

N/A

Summary
Space debris, also known as space junk, encompasses all non-functional objects orbiting Earth such as defunct satellites, spent rocket stages, and fragments from collisions or disintegrations. Over time, this debris can accumulate and create an increasingly hazardous environment in orbit. Even tiny fragments, traveling at extremely high velocities, can inflict significant damage on operational satellites and spacecraft. If left unmanaged, the density of debris raises the risk of catastrophic collisions and further fragmentation, compounding the problem and threatening the safety and sustainability of space activities.
Physical Characteristics

Length

0

Diameter

0

Span

0

Dry Mass

0

Launch Mass

0

Shape

N/A

Radar Cross Section

Unknown

Visual Magnitude

Unknown

Color

Unknown

Material Composition

Unknown

Technical Details

Payload

Unknown

Purpose

Unknown

Mission

Unknown

Manufacturer

Unknown

Life Expectancy

Unknown

Bus

Unknown

Configuration

Unknown

Motor

Unknown

Equipment

Unknown

Power System

Unknown

ADCS

Unknown

Transmitter Frequency

Unknown

Satellite Articles

View All Posts »

Learn more about satellites and other related topics.

X Report 11 Aug 2025

X Report 11 Aug 2025

Severe weather conditions disrupt the launch of Amazon’s Project Kuiper satellites, highlighting ongoing challenges in satellite deployment amidst increasing competition in the space industry.

Space Brief 21 Oct 2025

Space Brief 21 Oct 2025

Today's brief covers the latest in satellite technology contracts, China's rocket launch ambitions, and new launch authorizations paving the way for space exploration advancements.

Space Brief 23 Nov 2025

Space Brief 23 Nov 2025

Today's highlights include a space debris incident involving China's spacecraft, development advancements for military space missions, and a notable setback for SpaceX's Starship booster.

The Day We Banned the Word "Film"

The Day We Banned the Word "Film"

On January 20, 1972, the second KH-9 HEXAGON lifted off from Vandenberg - carrying the most sophisticated reconnaissance system ever built by engineers who weren't allowed to say 'film,' 'camera,' or even talk to each other about what they were doing.

Falcon Heavy Returns | A Six-Ton Bet on Geostationary Broadband

Falcon Heavy Returns | A Six-Ton Bet on Geostationary Broadband

Falcon Heavy flew for the first time in eighteen months on April 29, 2026, expending its center core to push Viasat's final ViaSat-3 satellite toward geostationary orbit. The mission is a flagship rocket doing what only it can still do, for an operator betting six tons of high-throughput hardware on a market Starlink is rapidly redefining.

X Report 9 Mar 2025

X Report 9 Mar 2025

SpaceX reveals plans for Florida Starship launches, NASA teams up for dual missions, and FCC boosts satellite connectivity.

Rocket Lab Acquires 66-Satellite Iridium Constellation | KeepTrack Space Brief

Rocket Lab Acquires 66-Satellite Iridium Constellation | KeepTrack Space Brief

Rocket Lab to acquire Iridium's 66-satellite LEO constellation for end-to-end vertical integration. Deal includes spacecraft manufacturing, launch, and on-orbit operations control.

Golden Dome Missile Shield Costs Up to $1.2T Over 20 Years | KeepTrack Space Brief

Golden Dome Missile Shield Costs Up to $1.2T Over 20 Years | KeepTrack Space Brief

CBO estimates Golden Dome national missile shield at $1.2 trillion over 20 years. Space-based intercept layer could add thousands of satellites to tracked orbital regimes.