Customer service order in Vilnius Tech library

September 9, 2020

Open hours:
 

Central Library (Saulėtekio al. 14) 
Monday to Friday    9.00 am – 9.00 pm  
Sanitary hours             12.00 am – 12.30 pm
                                        4.00 pm – 4.30 pm
 

 

Reading rooms in faculties:
Architecture and Creative Industries Sciences Reading Room, Pylimo g. 26/1, AR-I 1.15 Monday to Friday 9.00 am – 9.00 pm
Technology and Management Sciences Reading Room, Saulėtekio al. 11, SRC, C03 Monday to Friday 9.00 am – 9.00 pm
Mechanics and Transport Engineering Sciences Reading Room, Basanavičiaus g. 28, 108 Monday to Friday 9.00 am – 5.30 pm
Electronics Sciences Reading Room, Naugarduko g. 41, ER-I 409-410 Monday to Friday 10.00 am – 2.00 pm

Attention:

  • Ordered books are issued to the home in the Central Library (1st floor, room 101) and in the reading rooms of the faculties.
  • Come to pick up the publication after receiving an information notice about the prepared order to the specified place.
  • Return publications only through the return box on the outside of the building.
  • If you are unable to attend the library, you can return publications by post: VILNIUS TECH library, Saulėtekio al. 14, LT-10223 Vilnius
  • You can extend the publication return period in the virtual library by logging in to your account, by the phone (8-5) 274 49 00 or by e-mail biblioteka@vgtu.lt

Before coming to the library or reading rooms, it is necessary to know:

  • Visitors may enter in the library or reading rooms only if they are wearing protective masks (covering the nose and mouth). Disinfect your hands when you enter the library space.
  • Keep a safe distance of 2 meters between persons in the library spaces. Where it is not possible to maintain a safe distance, wear protective equipment covering the nose and mouth.
  • Environmental cleaning and disinfection are performed at the specified hours in the library.
  • Visitors with signs of acute upper respiratory illness (e.g. runny nose, coughs, sneezing, difficulty breathing) are not allowed in the building.

Services of printing and copy part ordering

We remind you that the library provides an opportunity to order a copy of a part of the publication in electronic format and receive it in your e-mail.
You can order the service by logging in to the Virtual Library profile, select the required publication, and click "Order a copy". The service is paid.

Here you found a comprehensive guide about all the virtual library search capabilities >>>
Please note that you can only order a copy of the part of the publication (15%). 

In the Virtual library, you will find a description of the publication. There you will find a link to the content of the publication, and you will able to choose the pages of the publication you need.

Electronic resources for your study and research needs

To meet the science and study needs of the Vilnius Tech community, Vilnius Tech library subscribes to 29 databases of electronic journals and electronic bookselectronic dictionaries and reference books in various fields of science, electronic dictionaries and reference books and bibliographic information management tools and provides access to more than 50,000 names of electronic LST and STR standards and patents.

All electronic resources, scientific journals, e-books, patent databases subscribed by the library are accessible not only from the computers of the university network but also from home using the remote access VPN service.

In response to the challenges posed by the global COVID-19 public health crisis, academic and commercial publishers on various platforms are temporarily opening up their accumulated scientific content. Many higher education institutions have started to provide services in an online environment, which facilitates easy access to reliable, multidisciplinary research from a variety of well-known universities, societies, and non-profit publishers. These initiatives aim to support training, learning, and knowledge discovery for consumers around the world. The library, in response to the initiatives of publishers, permanently analyzes the open electronic sources, selects the sources corresponding to the fields of science and studies of the university. The library provides concentrated information about the availability in the library website section,  Free electronic resources during the COVID-19 period

Software remotely

You can find the software in the Vilnius Tech cloud ,,Studsoft” at mano.vgtu.lt 

Exhibitions

We invite you to visit the art exhibition of Egidijus Godliauskas in the Exhibition Gallery A ''Deleted Borders / 2". This exhibition organizes for the first time in the Vilnius Tech Library Gallery. This is the author's first personal exhibition in Vilnius In the exhibition, you can see many as 17 abstractions, landscapes, and several portraits. This exhibition consists of several different styles of painting. The exhibition features the latest works created in 2019-2020. There are also several older works, which complement and expand the exhibition's exposition and time limits. All paintings are, as it were, unrelated works. They are not bound by time, theme, or space. The only object that connects them is the author.
We invite you to visit the virtual exhibition and admire the wonderful views of the Curonian Spit and remember the main historical facts. The Curonian Spit is one of the most beautiful and unique places in Lithuania. It is a stretch of sand dunes of fabulous beauty, stretching up to 98 km. In 2000 The Curonian Spit was included in the UNESCO World Heritage List as an object of the cultural landscape. It is an area of ​​unforgettable beauty that attracts people from all over the world to relax and travel.
Other virtual exhibitions >>>

Vilnius Tech reads

The Vilnius Tech project, which started in 2016, invites you to continue to support the initiative by actively participating in it! More information >>>

 

Related news

New doctoral dissertation
New doctoral dissertation
VILNIUS TECH Library invites you to follow the published new dissertations. The dissertation „Analysis and modeling of deformations induced by the extrusion of fiber-reinforced polymers“ prepared at VILNIUS TECH by Mahmoud Samy Mahmoud Mohammed Farh. The dissertation was prepared in 2021–2026. Scientific consultant – Prof. Dr Viktor Gribniak. The dissertation was defended at the public meeting of the Dissertation Defense Council of the Scientific Field of Materials Engineering in the Aula Doctoralis Meeting Hall of Vilnius Gediminas Technical University at 2 p.m. on 10 June 2026. Additive manufacturing via fused filament fabrication (FFF) enables the creation of geometrically complex components. Yet, its use in structural and semi‑structural applications remains limited by anisotropic mechanical response, defect sensitivity, and fabrication‑induced residual stresses that cause warpage and geometric inaccuracy. This dissertation investigates polylactic acid (PLA)- based materials manufactured by FFF, including neat and partially recycled PLA, continuously reinforced PLA, and short-fiber-reinforced composites, to develop an integrated experimental-computational methodology for evaluating mechanical efficiency and predicting process-induced distortion. The research object comprises the mechanical, thermal, viscoelastic, microstructural, and thermo‑mechanical characteristics of these materials. The dissertation develops a unified approach linking reinforcement strategy, material structure, thermal history, mechanical performance, and warpage behavior. The adopted methodology combines quasi‑static tensile and flexural testing, thermomechanical characterization, scanning electron microscopy, and finite-element simulations. Continuous aramid reinforcement developed in this study for FFF increases the load-bearing capacity of the tension specimens by 67%. Still, reinforcement efficiency was limited by toolpath continuity, interfacial defects, and the absence of in‑process fiber tensioning. Short‑fiber-reinforced composites exhibit distinct fiber‑type‑dependent behavior: carbon‑filled PLA increases stiffness, while wood‑filled PLA enhances crystallinity, stiffness retention near the glass‑transition temperature, toughness, and dimensional fidelity. Wood‑fiber reinforcement reduces edge warpage by 43% and carbon fiber by 14.3% under identical conditions. A staged thermo‑mechanical simulation framework is developed to model printing, cooling, and detachment, transferring residual stress and distortion fields into subsequent mechanical simulations. The ABAQUS model for neat PLA predicts warpage with an average error of 8.2–10.6%, whereas a Digimat workflow captures the deformation in short‑fiber-reinforced PLA with an error of 14.3–17.9%. The latter predictions were obtained for the first time. The dissertation consists of an introduction, three main chapters, general conclusions, and references. The First Chapter provides a literature review of FFF of reinforced polymers, including material combination and modeling strategies. The Second Chapter specifies the chosen materials, test program, and thermo mechanical modeling concept. The Third Chapter evaluates experimental and numerical results, integrating mechanical, thermal, microstructural, and simulation based findings. The General Conclusions summarize the dissertation work, which is supported by four publications, including three articles in Web of Science indexed journals with impact factors, and four conference presentations. Doctoral dissertation readers can search via VILNIUS TECH Virtual Library.    
More
New doctoral dissertation
New doctoral dissertation
VILNIUS TECH Library invites you to follow the published new dissertations. The dissertation „Interaction between currency market evolution with monetary policy instruments in the age of digitisation“ („Valiutų rinkos evoliucijos sąveika su monetarinės politikos instrumentais skaitmenizacijos amžiuje“) prepared at VILNIUS TECH by Tomas Pečiuli. The dissertation was prepared in 2020–2026. Scientific consultant – Assoc. Prof. Dr Asta Vasiliauskaitė. The dissertation was defended at the public meeting of the Dissertation Defence Council of the Scientific Field of Economics in the Aula Doctoralis Meeting Hall of Vilnius Gediminas Technical University at 10 a.m. on 10 June 2026. The emergence of decentralised cryptocurrencies has created fundamental challenges for traditional monetary policy systems. Although these digital assets have the potential to increase financial inclusion and efficiency, their volatility and the lack of centralised oversight create systemic risks that cannot be properly managed using classical models. This dissertation presents an integrated hybrid analytical framework designed to quantitatively assess the impact of cryptocurrencies on monetary policy transmission mechanisms, providing policymakers with empirically grounded tools to analyse this evolving financial domain more effectively. The dissertation is divided into three main parts. The First Chapter summarises the theoretical role of cryptocurrencies in modern monetary theory. The Second Chapter presents and substantiates a new methodology that combines machine-learning techniques with advanced econometric modelling, specifically using an Elastic Net machine learning model with ARIMA residuals and MSGARCH specifications to capture regime-dependent behaviour. The Third Chapter empirically validates the framework using data from cryptocurrency markets and central bank policy operations. The empirical results show a significant asymmetric policy transmission effect, with the price of Bitcoin reacting by USD -15,348 to a 1% change in the Federal Reserve interest rate. The analysis also identifies critical volatility thresholds (σ>80%) at which cryptocurrency fluctuations increase inflation risk. These results indicate the growing systemic importance of cryptocurrencies in monetary policy dynamics. The study contributes to the emerging field of digital asset economics. The integrated modelling approach helps overcome the long-standing limitations of analysing nonlinear financial phenomena. Practical applications include real-time financial stability risk monitoring systems and evidence-based guidelines for regulatory interventions. The modular structure of the framework allows for future expansion by incorporating evolving market structures and new digital assets. The dissertation’s results have been presented to the scientific community in eight peer-reviewed publications in scientific journals and conference proceedings. This work provides central banks with essential analytical tools to maintain monetary stability and to promote responsible financial innovation in the digital era. Doctoral dissertation readers can search via VILNIUS TECH Virtual Library.
More