Process Data set: Aluminum Cladding Panel (en)

Process Data set: Aluminum Cladding Panel (en) en

Process information

Key Data Set Information
Reference year	2026
Name	Aluminum Cladding Panel
Technical purpose of product or process	Aluminum panels are widely used as façade cladding in curtain wall systems. They are fixed onto a metal framework (such as aluminum or steel subframes) to form a non-load-bearing protective envelope with strong design flexibility and modern aesthetics. Featuring a low density of about 2.7 g/cm³, aluminum offers a high strength-to-weight ratio, with tensile strength up to 570 MPa after alloying and heat treatment. It also provides excellent thermal conductivity (200–240 W/m·K) and electrical conductivity (59–61% IACS), ensuring good performance in both structural and energy-efficient façade designs. Common panel thicknesses range from 1.0–3.0 mm, and lengths from 1000–6000 mm, balancing stiffness and ease of installation.
Classification	Class name : Hierarchy level One Click LCA: Material / Metal / Aluminium
General comment on data set	Aluminum panels are widely used as façade cladding in curtain wall systems. They are fixed onto a metal framework (such as aluminum or steel subframes) to form a non-load-bearing protective envelope with strong design flexibility and modern aesthetics. Featuring a low density of about 2.7 g/cm³, aluminum offers a high strength-to-weight ratio, with tensile strength up to 570 MPa after alloying and heat treatment. It also provides excellent thermal conductivity (200–240 W/m·K) and electrical conductivity (59–61% IACS), ensuring good performance in both structural and energy-efficient façade designs. Common panel thicknesses range from 1.0–3.0 mm, and lengths from 1000–6000 mm, balancing stiffness and ease of installation.
Copyright	Yes
Owner of data set	Foshan Polea Building Material Industry Co., Ltd
Quantitative reference
Reference flow(s)	Aluminum Cladding Panel - 1.0 * 1.0 (Area)
Material properties of the reference flow	grammage: 9.2 kg/m^2 layer thickness: 0.003 m
Biogenic carbon content	Carbon content (biogenic): 0.0 kg Carbon content (biogenic) - packaging: 0.0 kg
Time representativeness
Data set valid until	2031
Publication date	2026-01-30
Technological representativeness
Technology description including background system	Aluminum panels are widely used as façade cladding in curtain wall systems. They are fixed onto a metal framework (such as aluminum or steel subframes) to form a non-load-bearing protective envelope with strong design flexibility and modern aesthetics. Featuring a low density of about 2.7 g/cm³, aluminum offers a high strength-to-weight ratio, with tensile strength up to 570 MPa after alloying and heat treatment. It also provides excellent thermal conductivity (200–240 W/m·K) and electrical conductivity (59–61% IACS), ensuring good performance in both structural and energy-efficient façade designs. Common panel thicknesses range from 1.0–3.0 mm, and lengths from 1000–6000 mm, balancing stiffness and ease of installation.

Modelling and validation

Subtype

specific dataset

LCA methodology report

EPD Hub Core PCR 1.2

Data sources, treatment and representativeness

Documentation of data quality management

EPD Hub Core PCR 1.2

Data source(s) used for this data set

Original EPDs

HUB-5204.pdf

Completeness

Validation

Type of review
Accredited third party review

Reviewer name and institution
Sarah Curpen

Compliance Declarations

Compliance

Compliance system name

EN 15804+A2

Approval of overall compliance

Nomenclature compliance

Methodological compliance

Review compliance

Documentation compliance

Quality compliance

Compliance

Compliance system name

ISO 14025

Approval of overall compliance

Nomenclature compliance

Methodological compliance

Review compliance

Documentation compliance

Quality compliance

Administrative information

Commissioner and goal
Commissioner of data set	Foshan Polea Building Material Industry Co., Ltd
Data generator
Data set generator / modeller	Climate Asia Pte Ltd, Yap Ee Gin
Data entry by
Time stamp (last saved)	2026-05-06T19:05:29.302+02:00
Data set format(s)	ILCD Format EPD Data Format Extensions v1.2
Publication and ownership
UUID	7a958edf-65e8-5e7f-b73f-c077c37e9e8d
Date of last revision	2026-01-30T15:11:44
Data set version	00.01.000
Preceding Data set version
Registration authority	EPD Hub
Registration number	HUB-5204
Owner of data set	Foshan Polea Building Material Industry Co., Ltd
Copyright	Yes
License type	Free of charge for all users and uses
Access and use restrictions	None
Publisher	EPD Hub

Environmental indicators

Indicators of life cycle

Indicator	Direction	Unit	Production A1-A3	Transport A4	Installation A5	Use B1	De-construction C1	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
Use of renewable primary energy (PERE)	Input	MJ	153	0.0282	-3.38	ND	0.0106	0.00788	1.52	0.0121	-24.5
Use of renewable primary energy resources used as raw materials (PERM)	Input	MJ	7.54	0	-7.54	ND	0	0	0	0	-8.02
Total use of renewable primary energy resources (PERT)	Input	MJ	160.5	0.0282	-10.92	ND	0.0106	0.00788	1.52	0.0121	-32.52
Use of non renewable primary energy (PENRE)	Input	MJ	287	3.7	-4.28	ND	0.84	0.575	10.4	0.387	-505
Use of non renewable primary energy resources used as raw materials (PENRM)	Input	MJ	0.498	0	-0.498	ND	0	0	0	0	-0.67
Total use of non renewable primary energy resource (PENRT)	Input	MJ	287.5	3.7	-4.778	ND	0.84	0.575	10.4	0.387	-505.7
Use of secondary material (SM)	Input	kg	1.03	0.00176	0.0124	ND	0.000184	0.000245	0.0102	0.000154	-0.0638
Use of renewable secondary fuels (RSF)	Input	MJ	1.07	0.00000381	8.33E-7	ND	1.79E-7	0.00000311	0.000301	0.00000214	-0.00116
Use of non renewable secondary fuels (NRSF)	Input	MJ	0	0	0	ND	0	0	0	0	0
Use of net fresh water (FW)	Input	m3	0.204	0.000251	-0.00114	ND	0.0000952	0.000085	0.00652	-0.00343	-0.128
Hazardous waste disposed (HWD)	Output	kg	6.69	0.00489	0.000617	ND	0.000649	0.000974	0.143	0.00292	-12.2
Non hazardous waste dispose (NHWD)	Output	kg	31.3	0.066	0.851	ND	0.00983	0.018	3.96	4.92	-51.4
Radioactive waste disposed (RWD)	Output	kg	0.00111	4.04E-7	2.21E-7	ND	2.07E-8	1.23E-7	0.0000114	2.05E-7	-0.0000668
Components for re-use (CRU)	Output	kg	0	0	0	ND	0	0	0	0	0
Materials for recycling (MFR)	Output	kg	0.092	0	0.326	ND	0	0	8.3	0	0
Materials for energy recovery (MER)	Output	kg	0	0	0	ND	0	0	0	0	0
Exported electrical energy (EEE)	Output	MJ	0	0	0	ND	0	0	0	0	0
Exported thermal energy (EET)	Output	MJ	0	0	0	ND	0	0	0	0	0

Core environmental impact indicators

Indicator	Unit	Production A1-A3	Transport A4	Installation A5	Use B1	De-construction C1	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
Abiotic depletion potential for fossil resources (ADPF)	MJ	315	3.7	0.184	ND	0.84	0.575	10.3	0.387	-505
Abiotic depletion potential for non fossil resources (ADPE)	kg Sb eqv.	0.000104	2.94E-7	2.18E-8	ND	6.14E-8	1.1E-7	0.0000443	6.11E-8	-0.000038
Acidification potential of land and water (AP)	mol H+ eqv.	0.221	0.00889	0.0000587	ND	0.0000606	0.000135	0.00702	0.000132	-0.381
Depletion potential of the stratospheric ozone layer (ODP)	kg CFC 11 eqv.	0.0000356	4.34E-9	1.67E-10	ND	1.24E-9	5.85E-10	7.69E-9	4.18E-10	-1.96E-7
Eutrophication potential aquatic freshwater (EP-freshwater)	kg P eqv.	0.00187	0.00000947	0.00000437	ND	0.00000149	0.00000308	0.00048	0.00000357	-0.0117
Eutrophication potential aquatic marine (EP-marine)	kg N eqv.	0.0258	0.00221	0.00032	ND	0.0000169	0.0000444	0.000975	0.0000565	-0.066
Eutrophication potential terrestrial (EP-terrestrial)	mol N eqv.	0.296	0.0246	0.000194	ND	0.00018	0.000483	0.0109	0.000499	-0.699
Global Warming Potential biogenic (GWP-biogenic)	kg CO2 eqv.	-0.273	0.0000471	0.838	ND	0.00000471	0.00000897	-0.011	-0.0000658	0.897
Global Warming Potential fossil fuels (GWP-fossil)	kg CO2 eqv.	27.4	0.302	0.0209	ND	0.0532	0.0396	1.83	0.0228	-58.8
Global Warming Potential luluc (GWP-luluc)	kg CO2 eqv.	0.4	0.000163	0.0000133	ND	0.00000347	0.0000177	0.00116	0.0000319	-0.00654
Global Warming Potential total (GWP-total)	kg CO2 eqv.	27.53	0.3022	0.8589	ND	0.05321	0.03963	1.82	0.02277	-57.91
Photochemical Ozone Creation Potential (POCP)	kg NMVOC eqv.	0.0951	0.00665	0.0000734	ND	0.000134	0.000199	0.00343	0.000157	-0.205
Water use (WDP)	m3 world eqv.	6E+1	0.0103	0.00487	ND	0.00398	0.00284	0.24	0.00937	-5.91

Additional environmental impact indicators

Indicator	Unit	Production A1-A3	Transport A4	Installation A5	Use B1	De-construction C1	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
¹This impact category deals mainly with the eventual impact of low dose ionizing radiation on human health of the nuclear fuel cycle. It does not consider effects due to possible nuclear accidents, occupational exposure nor due to radioactive waste disposal in underground facilities. Potential ionizing radiation from the soil, from radon and from some construction materials is also not measured by this indicator.
²The results of this environmental impact indicator shall be used with care as the uncertainties on these results are high or as there is limited experiences with the indicator.
Incidence of disease due to PM emissions (PM)²	disease incidence	0.00000216	8.92E-9	1.07E-9	ND	2.7E-10	3.97E-9	1.27E-7	2.43E-9	-0.00000549
Potential Comparative Toxic Unit for ecosystems (ETP-fw)²	CTUe	616	0.272	0.661	ND	0.0482	0.0813	7.32	159	-146
Potential Comparative Toxic Unit for humans - cancer effects (HTP-c)²	CTUh	5.79E-8	6.41E-11	2.55E-12	ND	4.08E-12	6.54E-12	6.19E-10	1.7E-11	-2.27E-8
Potential Comparative Toxic Unit for humans - non-cancer effects (HTP-nc)²	CTUh	8.67E-7	8.98E-10	2.36E-10	ND	1.11E-10	3.72E-10	3.97E-8	3.63E-9	-3.73E-7
Potential Human exposure efficiency relative to U235 (IRP)¹	kBq U235 eqv.	1.86	0.00166	0.000884	ND	0.0000916	0.000501	0.0467	0.000836	-0.285
Soil quality index (SQP)²	unitless	139	0.284	0.237	ND	0.0576	0.579	11.2	0.595	-112