✅ ✅ Do not change environment mid‑project – it breaks material mapping ✅ Company standard? – Create a custom environment (clone + modify) ✅ Keep environment version matching Tekla version – mixing causes errors
✅ : Use Git or Trimble Connect to track changes to environment_manifest.xml , roles.xml , and catalog files.
<environment> <name>UK Steel</name> <description>BS EN 1993-1-1 steelwork</description> <region>UK</region> <version>2024</version> </environment> tekla environment list
✅ : Remove environments older than two major Tekla versions (e.g., remove 2021 environments after moving to 2024).
To truly master the environment list, you need to know its physical location on disk. The list is generated from two primary sources: ✅ ✅ Do not change environment mid‑project –
This is where the concept of the "Tekla Environment" becomes critical. For new users and seasoned professionals alike, understanding the is not just a matter of software installation—it is the foundation of accurate, compliant, and efficient modeling.
When you install Tekla Structures, you are installing the "engine" of the software. However, the engine needs fuel and specific instructions to run correctly in your locality. The environment provides these instructions. It acts as a massive database containing: To truly master the environment list, you need
When you launch Tekla Structures, the appears either on the startup dialog under “Environment” or within the Applications & components catalog under “Environments.” This list dynamically populates based on what is installed in your ..\Tekla Structures\<Version>\Environments\ directory.
Europe is a major hub for Tekla usage, and these environments are heavily influenced by Eurocode standards and local national annexes.
| Environment Name | Region | Primary Standard | Typical Project Type | |-----------------|--------|------------------|----------------------| | US Imperial (Steel) | USA | AISC 360-22, ASD/LRFD | Steel buildings, joists | | US Imperial (Precast) | USA | PCI | Precast parking decks | | US Imperial (Rebar) | USA | ACI 318-19 | Reinforced concrete | | UK Steel | United Kingdom | BS EN 1993-1-1 | High-rise steel frames | | UK Rebar | United Kingdom | BS 8666 | Reinforcement scheduling | | Europe General | EU | Eurocode (All parts) | Bridges, industrial | | Finland Steel | Finland | RakMK, Eurocode | Nordic construction | | Germany Steel | Germany | DIN EN 1993 | Mechanical engineering strikes | | France Steel | France | NF EN 1993 | French public works | | Australia Steel | Australia | AS 4100, AS 1554 | Mining, infrastructure | | New Zealand Steel | New Zealand | NZS 3404 | Seismic steel design | | China Steel | China | GB 50017-2017 | Chinese high-speed rail | | Russia SPDS | Russia | SP 16.13330 | Heavy industrial | | Brazil Steel | Brazil | NBR 8800 | South American markets | | Bridge – US | USA | AASHTO LRFD | Highway bridges | | Bridge – Eurocode | EU | EN 1991-2, EN 1993-2 | Rail bridges | | Precast – Australia | Australia | AS 3850 | Precast panels | | Timber – Europe | EU | EN 1995 | Glulam, CLT structures | | Rebar – Middle East | UAE | BS 4449 (custom) | High-rise concrete |
One of the most powerful features for a BIM manager is adding custom environments. For example, your company might have specific profile catalogs, drawing templates, and bolt libraries for post-tensioned concrete.
